virt_test/bin/python testrunner/runner.py --logfile=testrun.log --config=pypy/testrunner_cfg.py '--config=~/machine_cfg.py' --root=pypy --timeout=4000 in dir /build_dir/own-linux-x86-64/build (timeout 4000 secs) watching logfiles {'pytestLog': 'testrun.log'} argv: ['virt_test/bin/python', 'testrunner/runner.py', '--logfile=testrun.log', '--config=pypy/testrunner_cfg.py', '--config=~/machine_cfg.py', '--root=pypy', '--timeout=4000'] environment: AUDITWHEEL_ARCH=x86_64 AUDITWHEEL_PLAT=manylinux2014_x86_64 AUDITWHEEL_POLICY=manylinux2014 DEVTOOLSET_ROOTPATH=/opt/rh/devtoolset-10/root HOME=/home/buildslave HOSTNAME=a58a84039819 LANG=en_US.UTF-8 LANGUAGE=en_US.UTF-8 LC_ALL=en_US.UTF-8 LD_LIBRARY_PATH=/usr/local/lib:/opt/rh/devtoolset-10/root/usr/lib64:/opt/rh/devtoolset-10/root/usr/lib:/opt/rh/devtoolset-10/root/usr/lib64/dyninst:/opt/rh/devtoolset-10/root/usr/lib/dyninst:/usr/local/lib64 LOGNAME=buildslave PATH=/python27_virt/bin:/opt/rh/devtoolset-10/root/usr/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin PKG_CONFIG_PATH=/usr/local/lib64/pkgconfig:/usr/local/lib/pkgconfig PWD=/build_dir/own-linux-x86-64/build PYPYCHERRYPICK= PYPY_LOCALBASE=/usr/local PYPY_MAKE_PORTABLE=1 PYPY_USESSION_DIR=/tmp/pytest PYTHONPATH=.: SHELL=/bin/bash SHLVL=2 SSL_CERT_FILE=/opt/_internal/certs.pem TERM=xterm TMPDIR=/tmp/pytest USER=buildslave USE_CURL=1 _=/python27_virt/bin/buildslave using PTY: False using config pypy/testrunner_cfg.py using config /home/buildslave/machine_cfg.py running 4 parallel test workers setting MAKEFLAGS to ' ' (space) -- config/test -- interpreter/astcompiler/test -- interpreter/pyparser/test -- interpreter/test -- module/__builtin__/test -- module/__pypy__/test -- module/_abc/test -- module/_ast/test -- module/_cffi_backend/test -- module/_codecs/test -- module/_collections/test -- module/_continuation/test -- module/_cppyy/test -- module/_csv/test -- module/_demo/test -- module/_hpy_universal/test/_vendored -- module/_hpy_universal/test/pypy -- module/_io/test -- module/_jitlog/test -- module/_locale/test -- module/_lsprof/test -- module/_md5/test -- module/_minimal_curses/test -- module/_multibytecodec/test -- module/_multiprocessing/test -- module/_opcode/test -- module/_pickle/test -- module/_pickle_support/test -- module/_posixsubprocess/test -- module/_pypyjson/test -- module/_random/test -- module/_rawffi/alt/test -- module/_rawffi/test -- module/_socket/test -- module/_sre/test -- module/_vmprof/test -- module/_warnings/test -- module/_weakref/test -- module/_winreg/test -- module/array/test -- module/atexit/test -- module/binascii/test -- module/bz2/test -- module/cmath/test -- module/cpyext/test/test_api.py -- module/cpyext/test/test_arraymodule.py -- module/cpyext/test/test_async_iter.py -- module/cpyext/test/test_boolobject.py -- module/cpyext/test/test_borrow.py -- module/cpyext/test/test_buffer.py -- module/cpyext/test/test_bytearrayobject.py -- module/cpyext/test/test_bytesobject.py -- module/cpyext/test/test_capsule.py -- module/cpyext/test/test_cell.py -- module/cpyext/test/test_classobject.py -- module/cpyext/test/test_codecs.py -- module/cpyext/test/test_complexobject.py -- module/cpyext/test/test_contextvars.py -- module/cpyext/test/test_cpyext.py -- module/cpyext/test/test_datetime.py -- module/cpyext/test/test_dictobject.py -- module/cpyext/test/test_eval.py -- module/cpyext/test/test_exception.py -- module/cpyext/test/test_fileobject.py -- module/cpyext/test/test_floatobject.py -- module/cpyext/test/test_frameobject.py -- module/cpyext/test/test_funcobject.py -- module/cpyext/test/test_genobject.py -- module/cpyext/test/test_getargs.py -- module/cpyext/test/test_import.py -- module/cpyext/test/test_iterator.py -- module/cpyext/test/test_listobject.py -- module/cpyext/test/test_longobject.py -- module/cpyext/test/test_mapping.py -- module/cpyext/test/test_marshal.py -- module/cpyext/test/test_memoryobject.py -- module/cpyext/test/test_methodobject.py -- module/cpyext/test/test_misc.py -- module/cpyext/test/test_module.py -- module/cpyext/test/test_namespaceobject.py -- module/cpyext/test/test_ndarrayobject.py -- module/cpyext/test/test_number.py -- module/cpyext/test/test_object.py -- module/cpyext/test/test_pyerrors.py -- module/cpyext/test/test_pyfile.py -- module/cpyext/test/test_pymem.py -- module/cpyext/test/test_pysignals.py -- module/cpyext/test/test_pystate.py -- module/cpyext/test/test_pystrhex.py -- module/cpyext/test/test_pystrtod.py -- module/cpyext/test/test_sequence.py -- module/cpyext/test/test_setobject.py -- module/cpyext/test/test_sliceobject.py -- module/cpyext/test/test_structseq.py -- module/cpyext/test/test_sysmodule.py -- module/cpyext/test/test_thread.py -- module/cpyext/test/test_traceback.py -- module/cpyext/test/test_translate.py -- module/cpyext/test/test_tupleobject.py -- module/cpyext/test/test_typeobject.py -- module/cpyext/test/test_unicodeobject.py -- module/cpyext/test/test_userslots.py -- module/cpyext/test/test_version.py -- module/cpyext/test/test_weakref.py -- module/crypt/test -- module/errno/test -- module/exceptions/test -- module/faulthandler/test -- module/fcntl/test -- module/gc/test -- module/imp/test -- module/itertools/test -- module/marshal/test -- module/math/test -- module/micronumpy/test -- module/mmap/test -- module/operator/test -- module/posix/test -- module/pwd/test -- module/pyexpat/test -- module/pypyjit/test -- module/select/test -- module/signal/test -- module/struct/test -- module/sys/test -- module/termios/test -- module/test_lib_pypy -- module/thread/test -- module/time/test -- module/token/test -- module/unicodedata/test -- module/zipimport/test -- module/zlib/test -- objspace/fake/test -- objspace/std/test -- objspace/test -- sandbox/test -- tool/bench/test -- tool/memusage/test -- tool/pytest/fake_pytest/test -- tool/pytest/test -- tool/release/test -- tool/test -- total: 143 to run ++ 00:30:34 starting config/test [1 started in total] ++ 00:30:34 starting interpreter/astcompiler/test [2 started in total] ++ 00:30:34 starting interpreter/pyparser/test [3 started in total] ++ 00:30:34 starting interpreter/test [4 started in total] __ interpreter/pyparser/test [1 done in total, somefailed=True] _______________ ============================= test session starts ============================== platform linux2 -- Python 2.7.18, pytest-2.9.2, py-1.4.29, pluggy-0.3.1 hypothesis profile 'default' -> deadline=None, database=DirectoryBasedExampleDatabase('/build_dir/own-linux-x86-64/build/pypy/.hypothesis/examples') pytest-2.9.2 from /build_dir/own-linux-x86-64/build/pytest.pyc rootdir: /build_dir/own-linux-x86-64/build, inifile: pytest.ini plugins: hypothesis-4.39.3 collected 186 items / 1 errors interpreter/pyparser/test/test_automata.py ... interpreter/pyparser/test/test_future.py ................................... interpreter/pyparser/test/test_gendfa.py . interpreter/pyparser/test/test_parsestring.py EEEEEEEEEEEE interpreter/pyparser/test/test_pyparse.py EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE interpreter/pyparser/test/test_pytokenizer.py EEEEEEEEEEEEEEEEEEEEEEEEEEEEEE ==================================== ERRORS ==================================== ____ ERROR collecting pypy/interpreter/pyparser/test/apptest_parsestring.py ____ tool/pytest/apptest2.py:25: in collect space = objspace.gettestobjspace(**spaceconfig) tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:155: in _handle_error raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_87.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_87.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_87.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_87.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_87.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_87.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_87.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_87.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ------------------------------- Captured stderr -------------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_87.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_87.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_87.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_87.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_87.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_87.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_87.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_87.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of TestParsetring.test_simple _________________ item = <Function 'test_simple'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_88.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_88.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_88.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_88.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_88.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_88.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_88.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_88.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_88.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_88.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_88.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_88.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_88.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_88.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_88.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_88.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_88.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_88.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________________ ERROR at setup of TestParsetring.test_unicode _________________ item = <Function 'test_unicode'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_89.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_89.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_89.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_89.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_89.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_89.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_89.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_89.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_89.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_89.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_89.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_89.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_89.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_89.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_89.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_89.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_89.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_89.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestParsetring.test_unicode_pep414 _____________ item = <Function 'test_unicode_pep414'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_90.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_90.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_90.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_90.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_90.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_90.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_90.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_90.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_90.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_90.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_90.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_90.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_90.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_90.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_90.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_90.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_90.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_90.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestParsetring.test_unicode_literals ____________ item = <Function 'test_unicode_literals'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_91.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_91.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_91.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_91.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_91.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_91.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_91.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_91.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_91.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_91.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_91.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_91.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_91.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_91.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_91.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_91.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_91.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_91.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestParsetring.test_raw_unicode_literals __________ item = <Function 'test_raw_unicode_literals'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_92.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_92.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_92.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_92.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_92.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_92.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_92.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_92.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_92.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_92.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_92.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_92.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_92.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_92.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_92.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_92.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_92.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_92.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of TestParsetring.test_bytes __________________ item = <Function 'test_bytes'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_93.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_93.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_93.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_93.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_93.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_93.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_93.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_93.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_93.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_93.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_93.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_93.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_93.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_93.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_93.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_93.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_93.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_93.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestParsetring.test_simple_enc_roundtrip __________ item = <Function 'test_simple_enc_roundtrip'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_94.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_94.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_94.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_94.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_94.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_94.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_94.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_94.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_94.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_94.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_94.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_94.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_94.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_94.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_94.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_94.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_94.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_94.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestParsetring.test_multiline_unicode_strings_with_backslash item = <Function 'test_multiline_unicode_strings_with_backslash'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_95.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_95.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_95.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_95.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_95.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_95.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_95.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_95.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_95.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_95.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_95.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_95.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_95.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_95.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_95.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_95.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_95.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_95.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________________ ERROR at setup of TestParsetring.test_bug1 __________________ item = <Function 'test_bug1'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_96.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_96.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_96.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_96.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_96.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_96.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_96.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_96.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_96.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_96.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_96.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_96.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_96.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_96.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_96.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_96.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_96.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_96.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestParsetring.test_wide_unicode_in_source _________ item = <Function 'test_wide_unicode_in_source'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_97.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_97.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_97.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_97.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_97.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_97.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_97.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_97.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_97.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_97.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_97.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_97.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_97.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_97.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_97.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_97.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_97.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_97.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestParsetring.test_decode_unicode_utf8 ___________ item = <Function 'test_decode_unicode_utf8'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_98.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_98.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_98.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_98.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_98.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_98.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_98.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_98.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_98.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_98.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_98.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_98.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_98.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_98.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_98.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_98.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_98.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_98.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestParsetring.test_parsestr_segfault ____________ item = <Function 'test_parsestr_segfault'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_99.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_99.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_99.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_99.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_99.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_99.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_99.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_99.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_99.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_99.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_99.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_99.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_99.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_99.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_99.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_99.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_99.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_99.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of TestPythonParser.test_encoding _______________ item = <Function 'test_encoding'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_100.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_100.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_100.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_100.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_100.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_100.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_100.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_100.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_100.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_100.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_100.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_100.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_100.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_100.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_100.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_100.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_100.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_100.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestPythonParser.test_with_and_as ______________ item = <Function 'test_with_and_as'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_101.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_101.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_101.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_101.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_101.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_101.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_101.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_101.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_101.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_101.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_101.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_101.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_101.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_101.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_101.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_101.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_101.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_101.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_dont_imply_dedent ___________ item = <Function 'test_dont_imply_dedent'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_102.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_102.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_102.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_102.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_102.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_102.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_102.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_102.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_102.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_102.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_102.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_102.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_102.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_102.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_102.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_102.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_102.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_102.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestPythonParser.test_encoding_pep3120 ___________ item = <Function 'test_encoding_pep3120'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_103.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_103.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_103.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_103.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_103.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_103.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_103.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_103.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_103.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_103.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_103.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_103.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_103.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_103.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_103.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_103.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_103.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_103.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_unicode_identifier __________ item = <Function 'test_unicode_identifier'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_104.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_104.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_104.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_104.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_104.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_104.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_104.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_104.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_104.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_104.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_104.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_104.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_104.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_104.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_104.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_104.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_104.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_104.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestPythonParser.test_syntax_error _____________ item = <Function 'test_syntax_error'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_105.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_105.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_105.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_105.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_105.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_105.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_105.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_105.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_105.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_105.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_105.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_105.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_105.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_105.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_105.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_105.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_105.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_105.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________________ ERROR at setup of TestPythonParser.test_is __________________ item = <Function 'test_is'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_106.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_106.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_106.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_106.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_106.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_106.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_106.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_106.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_106.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_106.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_106.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_106.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_106.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_106.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_106.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_106.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_106.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_106.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_indentation_error ___________ item = <Function 'test_indentation_error'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_107.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_107.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_107.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_107.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_107.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_107.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_107.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_107.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_107.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_107.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_107.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_107.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_107.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_107.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_107.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_107.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_107.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_107.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of TestPythonParser.test_taberror _______________ item = <Function 'test_taberror'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_108.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_108.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_108.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_108.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_108.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_108.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_108.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_108.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_108.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_108.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_108.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_108.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_108.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_108.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_108.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_108.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_108.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_108.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestPythonParser.test_mac_newline ______________ item = <Function 'test_mac_newline'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_109.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_109.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_109.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_109.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_109.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_109.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_109.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_109.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_109.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_109.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_109.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_109.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_109.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_109.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_109.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_109.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_109.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_109.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestPythonParser.test_multiline_string ___________ item = <Function 'test_multiline_string'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_110.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_110.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_110.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_110.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_110.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_110.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_110.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_110.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_110.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_110.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_110.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_110.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_110.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_110.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_110.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_110.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_110.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_110.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestPythonParser.test_bytes_literal _____________ item = <Function 'test_bytes_literal'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_111.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_111.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_111.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_111.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_111.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_111.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_111.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_111.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_111.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_111.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_111.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_111.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_111.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_111.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_111.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_111.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_111.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_111.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_new_octal_literal ___________ item = <Function 'test_new_octal_literal'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_112.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_112.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_112.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_112.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_112.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_112.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_112.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_112.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_112.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_112.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_112.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_112.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_112.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_112.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_112.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_112.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_112.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_112.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_new_binary_literal __________ item = <Function 'test_new_binary_literal'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_113.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_113.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_113.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_113.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_113.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_113.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_113.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_113.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_113.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_113.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_113.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_113.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_113.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_113.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_113.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_113.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_113.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_113.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestPythonParser.test_print_function ____________ item = <Function 'test_print_function'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_114.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_114.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_114.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_114.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_114.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_114.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_114.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_114.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_114.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_114.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_114.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_114.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_114.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_114.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_114.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_114.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_114.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_114.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestPythonParser.test_revdb_dollar_num ___________ item = <Function 'test_revdb_dollar_num'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_115.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_115.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_115.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_115.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_115.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_115.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_115.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_115.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_115.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_115.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_115.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_115.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_115.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_115.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_115.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_115.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_115.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_115.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____ ERROR at setup of TestPythonParser.test_py3k_reject_old_binary_literal ____ item = <Function 'test_py3k_reject_old_binary_literal'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_116.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_116.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_116.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_116.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_116.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_116.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_116.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_116.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_116.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_116.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_116.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_116.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_116.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_116.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_116.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_116.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_116.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_116.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestPythonParser.test_py3k_extended_unpacking ________ item = <Function 'test_py3k_extended_unpacking'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_117.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_117.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_117.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_117.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_117.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_117.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_117.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_117.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_117.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_117.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_117.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_117.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_117.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_117.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_117.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_117.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_117.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_117.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestPythonParser.test_u_triple_quote ____________ item = <Function 'test_u_triple_quote'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_118.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_118.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_118.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_118.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_118.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_118.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_118.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_118.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_118.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_118.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_118.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_118.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_118.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_118.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_118.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_118.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_118.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_118.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestPythonParser.test_bad_single_statement _________ item = <Function 'test_bad_single_statement'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_119.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_119.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_119.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_119.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_119.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_119.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_119.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_119.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_119.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_119.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_119.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_119.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_119.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_119.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_119.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_119.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_119.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_119.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestPythonParser.test_null_bytes_rejected __________ item = <Function 'test_null_bytes_rejected'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_120.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_120.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_120.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_120.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_120.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_120.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_120.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_120.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_120.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_120.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_120.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_120.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_120.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_120.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_120.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_120.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_120.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_120.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________________ ERROR at setup of TestPythonParser.test_unpack ________________ item = <Function 'test_unpack'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_121.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_121.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_121.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_121.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_121.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_121.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_121.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_121.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_121.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_121.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_121.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_121.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_121.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_121.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_121.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_121.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_121.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_121.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestPythonParser.test_async_await ______________ item = <Function 'test_async_await'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_122.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_122.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_122.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_122.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_122.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_122.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_122.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_122.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_122.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_122.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_122.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_122.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_122.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_122.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_122.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_122.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_122.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_122.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_async_await_hacks ___________ item = <Function 'test_async_await_hacks'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_123.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_123.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_123.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_123.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_123.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_123.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_123.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_123.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_123.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_123.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_123.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_123.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_123.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_123.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_123.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_123.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_123.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_123.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_number_underscores __________ item = <Function 'test_number_underscores'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_124.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_124.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_124.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_124.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_124.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_124.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_124.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_124.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_124.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_124.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_124.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_124.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_124.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_124.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_124.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_124.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_124.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_124.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_relaxed_decorators __________ item = <Function 'test_relaxed_decorators'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_125.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_125.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_125.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_125.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_125.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_125.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_125.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_125.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_125.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_125.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_125.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_125.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_125.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_125.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_125.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_125.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_125.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_125.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_universal_newlines __________ item = <Function 'test_universal_newlines'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_126.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_126.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_126.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_126.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_126.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_126.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_126.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_126.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_126.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_126.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_126.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_126.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_126.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_126.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_126.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_126.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_126.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_126.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParser.test_error_forgotten_chars _________ item = <Function 'test_error_forgotten_chars'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_127.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_127.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_127.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_127.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_127.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_127.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_127.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_127.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_127.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_127.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_127.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_127.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_127.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_127.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_127.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_127.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_127.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_127.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestPythonParser.test_positional_only_args _________ item = <Function 'test_positional_only_args'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_128.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_128.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_128.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_128.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_128.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_128.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_128.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_128.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_128.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_128.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_128.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_128.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_128.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_128.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_128.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_128.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_128.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_128.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParser.test_forgot_comma_wrong __________ item = <Function 'test_forgot_comma_wrong'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_129.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_129.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_129.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_129.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_129.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_129.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_129.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_129.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_129.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_129.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_129.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_129.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_129.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_129.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_129.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_129.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_129.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_129.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of TestPythonParser.test_error_print_without_parens ______ item = <Function 'test_error_print_without_parens'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_130.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_130.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_130.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_130.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_130.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_130.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_130.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_130.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_130.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_130.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_130.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_130.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_130.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_130.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_130.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_130.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_130.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_130.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __ ERROR at setup of TestPythonParser.test_end_location_unparenthized_genexp ___ item = <Function 'test_end_location_unparenthized_genexp'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_131.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_131.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_131.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_131.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_131.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_131.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_131.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_131.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_131.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_131.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_131.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_131.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_131.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_131.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_131.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_131.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_131.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_131.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestPythonParser.test_invalid_default ____________ item = <Function 'test_invalid_default'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_132.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_132.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_132.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_132.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_132.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_132.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_132.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_132.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_132.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_132.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_132.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_132.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_132.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_132.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_132.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_132.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_132.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_132.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestPythonParser.test_invalid_star _____________ item = <Function 'test_invalid_star'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_133.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_133.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_133.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_133.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_133.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_133.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_133.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_133.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_133.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_133.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_133.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_133.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_133.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_133.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_133.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_133.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_133.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_133.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestPythonParser.test_null_bytes_in_source _________ item = <Function 'test_null_bytes_in_source'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_134.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_134.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_134.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_134.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_134.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_134.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_134.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_134.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_134.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_134.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_134.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_134.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_134.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_134.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_134.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_134.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_134.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_134.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParser.test_null_bytes_in_comment _________ item = <Function 'test_null_bytes_in_comment'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_135.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_135.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_135.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_135.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_135.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_135.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_135.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_135.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_135.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_135.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_135.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_135.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_135.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_135.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_135.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_135.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_135.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_135.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of TestPythonParser.test_null_bytes_lineno_and_text ______ item = <Function 'test_null_bytes_lineno_and_text'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_136.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_136.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_136.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_136.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_136.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_136.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_136.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_136.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_136.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_136.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_136.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_136.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_136.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_136.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_136.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_136.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_136.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_136.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _ ERROR at setup of TestPythonParser.test_null_bytes_multiline_lineno_and_text _ item = <Function 'test_null_bytes_multiline_lineno_and_text'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_137.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_137.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_137.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_137.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_137.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_137.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_137.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_137.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_137.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_137.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_137.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_137.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_137.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_137.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_137.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_137.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_137.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_137.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestPythonParserRevDB.test_encoding _____________ item = <Function 'test_encoding'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_138.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_138.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_138.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_138.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_138.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_138.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_138.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_138.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_138.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_138.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_138.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_138.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_138.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_138.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_138.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_138.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_138.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_138.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestPythonParserRevDB.test_with_and_as ___________ item = <Function 'test_with_and_as'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_139.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_139.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_139.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_139.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_139.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_139.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_139.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_139.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_139.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_139.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_139.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_139.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_139.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_139.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_139.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_139.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_139.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_139.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParserRevDB.test_dont_imply_dedent ________ item = <Function 'test_dont_imply_dedent'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_140.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_140.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_140.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_140.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_140.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_140.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_140.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_140.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_140.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_140.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_140.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_140.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_140.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_140.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_140.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_140.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_140.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_140.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParserRevDB.test_encoding_pep3120 _________ item = <Function 'test_encoding_pep3120'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_141.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_141.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_141.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_141.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_141.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_141.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_141.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_141.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_141.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_141.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_141.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_141.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_141.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_141.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_141.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_141.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_141.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_141.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestPythonParserRevDB.test_unicode_identifier ________ item = <Function 'test_unicode_identifier'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_142.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_142.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_142.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_142.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_142.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_142.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_142.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_142.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_142.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_142.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_142.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_142.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_142.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_142.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_142.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_142.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_142.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_142.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParserRevDB.test_syntax_error ___________ item = <Function 'test_syntax_error'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_143.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_143.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_143.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_143.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_143.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_143.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_143.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_143.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_143.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_143.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_143.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_143.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_143.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_143.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_143.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_143.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_143.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_143.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of TestPythonParserRevDB.test_is ________________ item = <Function 'test_is'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_144.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_144.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_144.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_144.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_144.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_144.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_144.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_144.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_144.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_144.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_144.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_144.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_144.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_144.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_144.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_144.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_144.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_144.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParserRevDB.test_indentation_error ________ item = <Function 'test_indentation_error'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_145.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_145.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_145.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_145.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_145.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_145.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_145.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_145.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_145.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_145.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_145.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_145.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_145.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_145.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_145.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_145.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_145.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_145.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestPythonParserRevDB.test_taberror _____________ item = <Function 'test_taberror'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_146.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_146.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_146.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_146.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_146.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_146.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_146.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_146.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_146.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_146.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_146.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_146.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_146.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_146.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_146.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_146.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_146.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_146.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestPythonParserRevDB.test_mac_newline ___________ item = <Function 'test_mac_newline'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_147.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_147.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_147.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_147.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_147.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_147.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_147.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_147.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_147.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_147.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_147.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_147.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_147.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_147.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_147.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_147.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_147.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_147.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParserRevDB.test_multiline_string _________ item = <Function 'test_multiline_string'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_148.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_148.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_148.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_148.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_148.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_148.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_148.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_148.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_148.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_148.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_148.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_148.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_148.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_148.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_148.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_148.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_148.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_148.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParserRevDB.test_bytes_literal __________ item = <Function 'test_bytes_literal'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_149.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_149.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_149.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_149.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_149.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_149.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_149.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_149.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_149.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_149.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_149.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_149.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_149.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_149.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_149.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_149.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_149.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_149.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParserRevDB.test_new_octal_literal ________ item = <Function 'test_new_octal_literal'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_150.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_150.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_150.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_150.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_150.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_150.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_150.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_150.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_150.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_150.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_150.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_150.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_150.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_150.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_150.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_150.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_150.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_150.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestPythonParserRevDB.test_new_binary_literal ________ item = <Function 'test_new_binary_literal'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_151.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_151.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_151.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_151.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_151.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_151.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_151.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_151.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_151.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_151.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_151.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_151.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_151.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_151.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_151.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_151.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_151.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_151.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestPythonParserRevDB.test_print_function __________ item = <Function 'test_print_function'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_152.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_152.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_152.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_152.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_152.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_152.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_152.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_152.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_152.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_152.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_152.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_152.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_152.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_152.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_152.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_152.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_152.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_152.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _ ERROR at setup of TestPythonParserRevDB.test_py3k_reject_old_binary_literal __ item = <Function 'test_py3k_reject_old_binary_literal'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_153.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_153.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_153.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_153.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_153.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_153.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_153.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_153.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_153.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_153.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_153.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_153.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_153.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_153.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_153.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_153.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_153.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_153.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____ ERROR at setup of TestPythonParserRevDB.test_py3k_extended_unpacking _____ item = <Function 'test_py3k_extended_unpacking'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_154.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_154.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_154.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_154.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_154.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_154.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_154.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_154.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_154.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_154.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_154.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_154.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_154.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_154.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_154.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_154.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_154.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_154.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestPythonParserRevDB.test_u_triple_quote __________ item = <Function 'test_u_triple_quote'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_155.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_155.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_155.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_155.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_155.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_155.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_155.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_155.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_155.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_155.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_155.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_155.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_155.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_155.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_155.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_155.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_155.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_155.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of TestPythonParserRevDB.test_bad_single_statement _______ item = <Function 'test_bad_single_statement'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_156.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_156.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_156.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_156.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_156.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_156.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_156.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_156.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_156.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_156.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_156.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_156.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_156.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_156.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_156.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_156.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_156.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_156.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestPythonParserRevDB.test_null_bytes_rejected _______ item = <Function 'test_null_bytes_rejected'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_157.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_157.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_157.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_157.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_157.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_157.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_157.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_157.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_157.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_157.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_157.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_157.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_157.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_157.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_157.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_157.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_157.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_157.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestPythonParserRevDB.test_unpack ______________ item = <Function 'test_unpack'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_158.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_158.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_158.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_158.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_158.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_158.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_158.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_158.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_158.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_158.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_158.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_158.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_158.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_158.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_158.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_158.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_158.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_158.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestPythonParserRevDB.test_async_await ___________ item = <Function 'test_async_await'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_159.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_159.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_159.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_159.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_159.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_159.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_159.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_159.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_159.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_159.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_159.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_159.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_159.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_159.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_159.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_159.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_159.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_159.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParserRevDB.test_async_await_hacks ________ item = <Function 'test_async_await_hacks'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_160.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_160.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_160.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_160.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_160.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_160.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_160.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_160.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_160.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_160.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_160.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_160.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_160.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_160.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_160.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_160.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_160.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_160.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestPythonParserRevDB.test_number_underscores ________ item = <Function 'test_number_underscores'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_161.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_161.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_161.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_161.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_161.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_161.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_161.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_161.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_161.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_161.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_161.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_161.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_161.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_161.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_161.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_161.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_161.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_161.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestPythonParserRevDB.test_relaxed_decorators ________ item = <Function 'test_relaxed_decorators'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_162.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_162.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_162.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_162.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_162.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_162.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_162.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_162.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_162.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_162.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_162.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_162.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_162.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_162.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_162.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_162.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_162.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_162.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestPythonParserRevDB.test_universal_newlines ________ item = <Function 'test_universal_newlines'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_163.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_163.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_163.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_163.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_163.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_163.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_163.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_163.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_163.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_163.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_163.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_163.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_163.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_163.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_163.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_163.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_163.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_163.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of TestPythonParserRevDB.test_error_forgotten_chars ______ item = <Function 'test_error_forgotten_chars'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_164.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_164.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_164.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_164.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_164.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_164.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_164.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_164.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_164.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_164.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_164.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_164.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_164.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_164.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_164.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_164.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_164.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_164.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of TestPythonParserRevDB.test_positional_only_args _______ item = <Function 'test_positional_only_args'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_165.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_165.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_165.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_165.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_165.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_165.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_165.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_165.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_165.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_165.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_165.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_165.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_165.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_165.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_165.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_165.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_165.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_165.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestPythonParserRevDB.test_forgot_comma_wrong ________ item = <Function 'test_forgot_comma_wrong'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_166.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_166.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_166.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_166.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_166.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_166.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_166.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_166.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_166.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_166.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_166.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_166.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_166.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_166.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_166.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_166.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_166.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_166.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___ ERROR at setup of TestPythonParserRevDB.test_error_print_without_parens ____ item = <Function 'test_error_print_without_parens'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_167.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_167.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_167.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_167.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_167.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_167.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_167.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_167.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_167.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_167.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_167.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_167.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_167.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_167.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_167.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_167.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_167.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_167.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestPythonParserRevDB.test_end_location_unparenthized_genexp item = <Function 'test_end_location_unparenthized_genexp'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_168.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_168.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_168.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_168.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_168.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_168.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_168.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_168.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_168.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_168.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_168.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_168.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_168.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_168.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_168.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_168.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_168.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_168.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestPythonParserRevDB.test_invalid_default _________ item = <Function 'test_invalid_default'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_169.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_169.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_169.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_169.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_169.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_169.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_169.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_169.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_169.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_169.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_169.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_169.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_169.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_169.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_169.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_169.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_169.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_169.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestPythonParserRevDB.test_invalid_star ___________ item = <Function 'test_invalid_star'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_170.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_170.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_170.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_170.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_170.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_170.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_170.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_170.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_170.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_170.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_170.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_170.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_170.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_170.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_170.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_170.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_170.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_170.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of TestPythonParserRevDB.test_null_bytes_in_source _______ item = <Function 'test_null_bytes_in_source'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_171.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_171.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_171.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_171.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_171.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_171.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_171.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_171.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_171.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_171.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_171.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_171.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_171.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_171.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_171.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_171.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_171.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_171.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of TestPythonParserRevDB.test_null_bytes_in_comment ______ item = <Function 'test_null_bytes_in_comment'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_172.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_172.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_172.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_172.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_172.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_172.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_172.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_172.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_172.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_172.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_172.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_172.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_172.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_172.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_172.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_172.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_172.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_172.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___ ERROR at setup of TestPythonParserRevDB.test_null_bytes_lineno_and_text ____ item = <Function 'test_null_bytes_lineno_and_text'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_173.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_173.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_173.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_173.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_173.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_173.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_173.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_173.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_173.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_173.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_173.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_173.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_173.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_173.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_173.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_173.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_173.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_173.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestPythonParserRevDB.test_null_bytes_multiline_lineno_and_text item = <Function 'test_null_bytes_multiline_lineno_and_text'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_174.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_174.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_174.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_174.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_174.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_174.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_174.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_174.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_174.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_174.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_174.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_174.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_174.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_174.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_174.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_174.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_174.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_174.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonParserRevDB.test_revdb_dollar_num _________ item = <Function 'test_revdb_dollar_num'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_175.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_175.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_175.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_175.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_175.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_175.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_175.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_175.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_175.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_175.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_175.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_175.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_175.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_175.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_175.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_175.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_175.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_175.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestPythonPegParser.test_crash_with _____________ item = <Function 'test_crash_with'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_176.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_176.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_176.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_176.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_176.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_176.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_176.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_176.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_176.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_176.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_176.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_176.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_176.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_176.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_176.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_176.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_176.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_176.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestPythonPegParser.test_crash_eval_empty __________ item = <Function 'test_crash_eval_empty'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_177.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_177.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_177.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_177.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_177.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_177.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_177.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_177.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_177.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_177.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_177.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_177.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_177.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_177.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_177.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_177.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_177.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_177.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _ ERROR at setup of TestPythonPegParser.test_dont_imply_dedent_ignored_on_exec _ item = <Function 'test_dont_imply_dedent_ignored_on_exec'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_178.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_178.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_178.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_178.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_178.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_178.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_178.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_178.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_178.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_178.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_178.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_178.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_178.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_178.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_178.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_178.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_178.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_178.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____ ERROR at setup of TestPythonPegParser.test_pattern_matching_experiment ____ item = <Function 'test_pattern_matching_experiment'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_179.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_179.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_179.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_179.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_179.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_179.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_179.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_179.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_179.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_179.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_179.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_179.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_179.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_179.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_179.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_179.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_179.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_179.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of TestPythonPegParser.test_nonparen_genexp_in_call ______ item = <Function 'test_nonparen_genexp_in_call'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_180.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_180.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_180.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_180.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_180.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_180.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_180.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_180.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_180.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_180.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_180.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_180.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_180.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_180.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_180.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_180.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_180.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_180.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestPythonPegParser.test_end_positions ___________ item = <Function 'test_end_positions'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_181.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_181.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_181.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_181.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_181.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_181.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_181.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_181.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_181.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_181.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_181.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_181.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_181.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_181.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_181.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_181.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_181.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_181.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestPythonPegParser.test_match_deeply_nested ________ item = <Function 'test_match_deeply_nested'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_182.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_182.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_182.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_182.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_182.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_182.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_182.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_182.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_182.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_182.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_182.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_182.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_182.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_182.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_182.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_182.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_182.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_182.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestPythonPegParser.test_except_star ____________ item = <Function 'test_except_star'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_183.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_183.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_183.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_183.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_183.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_183.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_183.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_183.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_183.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_183.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_183.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_183.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_183.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_183.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_183.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_183.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_183.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_183.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __ ERROR at setup of TestPythonPegParser.test_dict_with_equals_suggests_colon __ item = <Function 'test_dict_with_equals_suggests_colon'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_184.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_184.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_184.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_184.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_184.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_184.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_184.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_184.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_184.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_184.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_184.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_184.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_184.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_184.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_184.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_184.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_184.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_184.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____ ERROR at setup of TestPythonPegParser.test_except_star_no_type_offset _____ item = <Function 'test_except_star_no_type_offset'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_185.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_185.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_185.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_185.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_185.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_185.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_185.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_185.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_185.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_185.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_185.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_185.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_185.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_185.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_185.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_185.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_185.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_185.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of TestIncompleteInput.test_simple _______________ item = <Function 'test_simple'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_186.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_186.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_186.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_186.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_186.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_186.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_186.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_186.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_186.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_186.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_186.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_186.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_186.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_186.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_186.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_186.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_186.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_186.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestIncompleteInput.test_expression _____________ item = <Function 'test_expression'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_187.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_187.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_187.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_187.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_187.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_187.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_187.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_187.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_187.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_187.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_187.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_187.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_187.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_187.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_187.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_187.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_187.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_187.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________________ ERROR at setup of TestIncompleteInput.test_if _________________ item = <Function 'test_if'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_188.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_188.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_188.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_188.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_188.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_188.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_188.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_188.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_188.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_188.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_188.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_188.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_188.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_188.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_188.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_188.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_188.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_188.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of TestIncompleteInput.test_nested _______________ item = <Function 'test_nested'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_189.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_189.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_189.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_189.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_189.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_189.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_189.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_189.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_189.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_189.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_189.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_189.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_189.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_189.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_189.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_189.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_189.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_189.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestIncompleteInput.test_real_error _____________ item = <Function 'test_real_error'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_190.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_190.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_190.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_190.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_190.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_190.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_190.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_190.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_190.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_190.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_190.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_190.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_190.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_190.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_190.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_190.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_190.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_190.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestIncompleteInput.test_triplequote ____________ item = <Function 'test_triplequote'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_191.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_191.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_191.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_191.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_191.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_191.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_191.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_191.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_191.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_191.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_191.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_191.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_191.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_191.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_191.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_191.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_191.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_191.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of TestIncompleteInput.test_augmented_assignment ________ item = <Function 'test_augmented_assignment'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_192.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_192.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_192.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_192.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_192.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_192.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_192.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_192.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_192.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_192.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_192.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_192.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_192.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_192.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_192.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_192.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_192.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_192.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestIncompleteInput.test_parenthesized ___________ item = <Function 'test_parenthesized'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_193.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_193.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_193.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_193.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_193.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_193.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_193.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_193.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_193.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_193.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_193.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_193.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_193.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_193.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_193.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_193.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_193.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_193.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of TestIncompleteInput.test_ifelse _______________ item = <Function 'test_ifelse'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_194.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_194.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_194.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_194.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_194.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_194.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_194.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_194.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_194.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_194.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_194.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_194.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_194.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_194.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_194.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_194.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_194.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_194.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestIncompleteInput.test_line_continuation _________ item = <Function 'test_line_continuation'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_195.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_195.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_195.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_195.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_195.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_195.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_195.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_195.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_195.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_195.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_195.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_195.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_195.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_195.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_195.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_195.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_195.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_195.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestIncompleteInput.test_unterminated_single_quote_with_newline_is_invalid item = <Function 'test_unterminated_single_quote_with_newline_is_invalid'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_196.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_196.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_196.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_196.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_196.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_196.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_196.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_196.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_196.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_196.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_196.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_196.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_196.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_196.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_196.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_196.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_196.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_196.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestIncompleteInput.test_unterminated_single_quote_no_newline_is_invalid item = <Function 'test_unterminated_single_quote_no_newline_is_invalid'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_197.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_197.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_197.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_197.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_197.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_197.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_197.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_197.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_197.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_197.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_197.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_197.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_197.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_197.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_197.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_197.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_197.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_197.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___ ERROR at setup of TestIncompleteInput.test_invalid_with_explicit_newline ___ item = <Function 'test_invalid_with_explicit_newline'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_198.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_198.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_198.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_198.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_198.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_198.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_198.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_198.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_198.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_198.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_198.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_198.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_198.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_198.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_198.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_198.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_198.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_198.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____ ERROR at setup of TestIncompleteInput.test_if_with_explicit_newline ______ item = <Function 'test_if_with_explicit_newline'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_199.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_199.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_199.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_199.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_199.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_199.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_199.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_199.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_199.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_199.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_199.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_199.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_199.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_199.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_199.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_199.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_199.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_199.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestIncompleteInput.test_def_blank_line_unindented_body_is_invalid item = <Function 'test_def_blank_line_unindented_body_is_invalid'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_200.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_200.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_200.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_200.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_200.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_200.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_200.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_200.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_200.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_200.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_200.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_200.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_200.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_200.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_200.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_200.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_200.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_200.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___ ERROR at setup of TestIncompleteInput.test_eval_mode_empty_is_incomplete ___ item = <Function 'test_eval_mode_empty_is_incomplete'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_201.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_201.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_201.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_201.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_201.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_201.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_201.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_201.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_201.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_201.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_201.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_201.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_201.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_201.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_201.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_201.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_201.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_201.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestIncompleteInput.test_eval_mode_trailing_operator_is_invalid item = <Function 'test_eval_mode_trailing_operator_is_invalid'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_202.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_202.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_202.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_202.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_202.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_202.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_202.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_202.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_202.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_202.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_202.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_202.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_202.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_202.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_202.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_202.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_202.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_202.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestIncompleteInput.test_eval_mode_open_paren_with_newline_is_incomplete item = <Function 'test_eval_mode_open_paren_with_newline_is_incomplete'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_203.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_203.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_203.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_203.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_203.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_203.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_203.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_203.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_203.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_203.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_203.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_203.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_203.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_203.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_203.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_203.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_203.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_203.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestIncompleteInput.test_decorator_without_body_is_incomplete item = <Function 'test_decorator_without_body_is_incomplete'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_204.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_204.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_204.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_204.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_204.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_204.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_204.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_204.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_204.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_204.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_204.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_204.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_204.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_204.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_204.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_204.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_204.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_204.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of TestTokenizer.test_simple __________________ item = <Function 'test_simple'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_205.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_205.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_205.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_205.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_205.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_205.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_205.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_205.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_205.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_205.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_205.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_205.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_205.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_205.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_205.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_205.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_205.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_205.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestTokenizer.test_error_parenthesis ____________ item = <Function 'test_error_parenthesis'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_206.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_206.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_206.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_206.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_206.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_206.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_206.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_206.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_206.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_206.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_206.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_206.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_206.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_206.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_206.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_206.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_206.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_206.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of TestTokenizer.test_unknown_char _______________ item = <Function 'test_unknown_char'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_207.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_207.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_207.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_207.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_207.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_207.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_207.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_207.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_207.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_207.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_207.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_207.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_207.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_207.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_207.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_207.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_207.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_207.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of TestTokenizer.test_eol_string ________________ item = <Function 'test_eol_string'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_208.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_208.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_208.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_208.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_208.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_208.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_208.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_208.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_208.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_208.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_208.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_208.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_208.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_208.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_208.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_208.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_208.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_208.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestTokenizer.test_eof_triple_quoted ____________ item = <Function 'test_eof_triple_quoted'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_209.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_209.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_209.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_209.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_209.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_209.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_209.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_209.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_209.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_209.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_209.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_209.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_209.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_209.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_209.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_209.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_209.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_209.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of TestTokenizer.test_type_comments ______________ item = <Function 'test_type_comments'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_210.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_210.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_210.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_210.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_210.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_210.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_210.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_210.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_210.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_210.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_210.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_210.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_210.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_210.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_210.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_210.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_210.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_210.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestTokenizer.test_type_comment_bug _____________ item = <Function 'test_type_comment_bug'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_211.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_211.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_211.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_211.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_211.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_211.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_211.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_211.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_211.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_211.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_211.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_211.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_211.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_211.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_211.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_211.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_211.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_211.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of TestTokenizer.test_type_ignore _______________ item = <Function 'test_type_ignore'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_212.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_212.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_212.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_212.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_212.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_212.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_212.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_212.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_212.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_212.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_212.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_212.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_212.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_212.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_212.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_212.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_212.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_212.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of TestTokenizer.test_walrus __________________ item = <Function 'test_walrus'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_213.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_213.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_213.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_213.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_213.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_213.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_213.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_213.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_213.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_213.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_213.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_213.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_213.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_213.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_213.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_213.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_213.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_213.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of TestTokenizer.test_triple_quoted ______________ item = <Function 'test_triple_quoted'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_214.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_214.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_214.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_214.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_214.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_214.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_214.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_214.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_214.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_214.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_214.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_214.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_214.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_214.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_214.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_214.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_214.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_214.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestTokenizer.test_parenthesis_positions __________ item = <Function 'test_parenthesis_positions'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_215.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_215.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_215.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_215.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_215.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_215.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_215.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_215.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_215.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_215.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_215.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_215.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_215.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_215.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_215.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_215.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_215.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_215.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestTokenizer.test_PyCF_DONT_IMPLY_DEDENT __________ item = <Function 'test_PyCF_DONT_IMPLY_DEDENT'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_216.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_216.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_216.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_216.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_216.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_216.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_216.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_216.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_216.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_216.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_216.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_216.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_216.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_216.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_216.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_216.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_216.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_216.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestTokenizer.test_ignore_just_linecont ___________ item = <Function 'test_ignore_just_linecont'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_217.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_217.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_217.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_217.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_217.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_217.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_217.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_217.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_217.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_217.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_217.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_217.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_217.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_217.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_217.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_217.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_217.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_217.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestTokenizer.test_error_linecont ______________ item = <Function 'test_error_linecont'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_218.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_218.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_218.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_218.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_218.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_218.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_218.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_218.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_218.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_218.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_218.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_218.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_218.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_218.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_218.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_218.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_218.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_218.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___ ERROR at setup of TestTokenizer.test_continuation_and_indentation_levels ___ item = <Function 'test_continuation_and_indentation_levels'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_219.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_219.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_219.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_219.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_219.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_219.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_219.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_219.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_219.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_219.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_219.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_219.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_219.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_219.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_219.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_219.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_219.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_219.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________________ ERROR at setup of TestTokenizer.test_formfeed1 ________________ item = <Function 'test_formfeed1'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_220.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_220.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_220.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_220.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_220.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_220.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_220.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_220.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_220.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_220.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_220.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_220.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_220.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_220.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_220.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_220.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_220.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_220.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________________ ERROR at setup of TestTokenizer.test_formfeed2 ________________ item = <Function 'test_formfeed2'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_221.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_221.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_221.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_221.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_221.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_221.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_221.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_221.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_221.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_221.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_221.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_221.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_221.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_221.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_221.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_221.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_221.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_221.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestTokenizer.test_backslash_before_indent1 _________ item = <Function 'test_backslash_before_indent1'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_222.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_222.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_222.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_222.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_222.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_222.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_222.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_222.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_222.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_222.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_222.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_222.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_222.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_222.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_222.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_222.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_222.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_222.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of TestTokenizer.test_backslash_before_indent2 _________ item = <Function 'test_backslash_before_indent2'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_223.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_223.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_223.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_223.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_223.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_223.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_223.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_223.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_223.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_223.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_223.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_223.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_223.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_223.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_223.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_223.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_223.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_223.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of TestTokenizer.test_error_integers ______________ item = <Function 'test_error_integers'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_224.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_224.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_224.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_224.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_224.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_224.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_224.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_224.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_224.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_224.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_224.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_224.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_224.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_224.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_224.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_224.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_224.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_224.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestTokenizer.test_invalid_identifier ____________ item = <Function 'test_invalid_identifier'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_225.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_225.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_225.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_225.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_225.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_225.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_225.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_225.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_225.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_225.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_225.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_225.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_225.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_225.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_225.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_225.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_225.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_225.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestTokenizer310Changes.test_single_quoted _________ item = <Function 'test_single_quoted'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_226.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_226.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_226.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_226.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_226.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_226.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_226.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_226.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_226.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_226.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_226.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_226.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_226.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_226.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_226.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_226.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_226.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_226.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of TestTokenizer310Changes.test_triple_quoted _________ item = <Function 'test_triple_quoted'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_227.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_227.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_227.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_227.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_227.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_227.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_227.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_227.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_227.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_227.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_227.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_227.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_227.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_227.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_227.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_227.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_227.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_227.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____ ERROR at setup of TestTokenizer310Changes.test_single_quoted_detected _____ item = <Function 'test_single_quoted_detected'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_228.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_228.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_228.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_228.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_228.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_228.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_228.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_228.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_228.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_228.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_228.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_228.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_228.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_228.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_228.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_228.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_228.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_228.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____ ERROR at setup of TestTokenizer310Changes.test_triple_quoted_detected _____ item = <Function 'test_triple_quoted_detected'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_229.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_229.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_229.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_229.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_229.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_229.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_229.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_229.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_229.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_229.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_229.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_229.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_229.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_229.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_229.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_229.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_229.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_229.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestTokenizer310Changes.test_warn_number_followed_by_keyword item = <Function 'test_warn_number_followed_by_keyword'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_230.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_230.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_230.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_230.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_230.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_230.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_230.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_230.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_230.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_230.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_230.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_230.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_230.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_230.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_230.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_230.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_230.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_230.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of TestTokenizer310Changes.test_error_number_by_non_keyword_name item = <Function 'test_error_number_by_non_keyword_name'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_231.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_231.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_231.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_231.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_231.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_231.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_231.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_231.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_231.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_231.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_231.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_231.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_231.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_231.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_231.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_231.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_231.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_231.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of TestTokenizer310Changes.test_levels _____________ item = <Function 'test_levels'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_232.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_232.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_232.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_232.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_232.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_232.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_232.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_232.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_232.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_232.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_232.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_232.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_232.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_232.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_232.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_232.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_232.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_232.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____ ERROR at setup of TestTokenizer310Changes.test_non_utf8_error_message _____ item = <Function 'test_non_utf8_error_message'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_233.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_233.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_233.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_233.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_233.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_233.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_233.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_233.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_233.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_233.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_233.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_233.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_233.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_233.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_233.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_233.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_233.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_233.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____ ERROR at setup of TestTokenizer310Changes.test_invalid_float_exponent _____ item = <Function 'test_invalid_float_exponent'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-788/platcheck_234.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-788/platcheck_234.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-788/platcheck_234.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-788/platcheck_234.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_234.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-788/platcheck_234.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-788/platcheck_234.c:143: E /tmp/pytest/usession-py3.11-788/platcheck_234.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_234.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-788/platcheck_234.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_234.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_234.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_234.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_234.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-788/platcheck_234.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_234.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_234.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-788/platcheck_234.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ==================== 39 passed, 148 error in 154.50 seconds ==================== ++ 00:33:11 starting module/__builtin__/test [5 started in total] __ module/__builtin__/test [2 done in total, somefailed=True] _________________ ============================= test session starts ============================== platform linux2 -- Python 2.7.18, pytest-2.9.2, py-1.4.29, pluggy-0.3.1 hypothesis profile 'default' -> deadline=None, database=DirectoryBasedExampleDatabase('/build_dir/own-linux-x86-64/build/pypy/.hypothesis/examples') pytest-2.9.2 from /build_dir/own-linux-x86-64/build/pytest.pyc rootdir: /build_dir/own-linux-x86-64/build, inifile: pytest.ini plugins: hypothesis-4.39.3 collected 287 items / 4 errors module/__builtin__/test/test_abstractinst.py EEEEEEEEEEEEE module/__builtin__/test/test_breakpoint.py EEEEEEEE module/__builtin__/test/test_builtin.py EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE module/__builtin__/test/test_compile.py EE module/__builtin__/test/test_construct_singletons.py E module/__builtin__/test/test_descriptor.py EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE module/__builtin__/test/test_dir.py EEEEEEEEEEE module/__builtin__/test/test_filter.py EEEEEEEE module/__builtin__/test/test_filter_pickle.py EEEEE module/__builtin__/test/test_format.py E module/__builtin__/test/test_functional.py EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE module/__builtin__/test/test_map_pickle.py EEE module/__builtin__/test/test_minmax.py EEEEEEEEEEEEEEEEEEEEEEE module/__builtin__/test/test_rawinput.py EE module/__builtin__/test/test_sum.py E module/__builtin__/test/test_vars.py EEE module/__builtin__/test/test_zip.py EEEEEEEEEEE module/__builtin__/test/test_zip_pickle.py E ==================================== ERRORS ==================================== _______ ERROR collecting pypy/module/__builtin__/test/apptest_compile.py _______ tool/pytest/apptest2.py:25: in collect space = objspace.gettestobjspace(**spaceconfig) tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:155: in _handle_error raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_87.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_87.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_87.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_87.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_87.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_87.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_87.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_87.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ------------------------------- Captured stderr -------------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_87.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_87.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_87.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_87.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_87.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_87.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_87.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_87.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____ ERROR collecting pypy/module/__builtin__/test/apptest_descriptor.py ______ tool/pytest/apptest2.py:25: in collect space = objspace.gettestobjspace(**spaceconfig) tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:155: in _handle_error raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_88.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_88.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_88.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_88.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_88.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_88.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_88.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_88.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ------------------------------- Captured stderr -------------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_88.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_88.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_88.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_88.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_88.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_88.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_88.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_88.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR collecting pypy/module/__builtin__/test/apptest_operator.py _______ tool/pytest/apptest2.py:25: in collect space = objspace.gettestobjspace(**spaceconfig) tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:155: in _handle_error raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_89.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_89.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_89.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_89.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_89.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_89.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_89.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_89.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ------------------------------- Captured stderr -------------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_89.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_89.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_89.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_89.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_89.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_89.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_89.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_89.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR collecting pypy/module/__builtin__/test/apptest_print.py ________ tool/pytest/apptest2.py:25: in collect space = objspace.gettestobjspace(**spaceconfig) tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:155: in _handle_error raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_90.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_90.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_90.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_90.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_90.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_90.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_90.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_90.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ------------------------------- Captured stderr -------------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_90.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_90.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_90.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_90.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_90.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_90.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_90.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_90.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of TestAbstractInst.test_abstract_isclass ___________ item = <Function 'test_abstract_isclass'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_91.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_91.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_91.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_91.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_91.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_91.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_91.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_91.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_91.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_91.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_91.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_91.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_91.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_91.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_91.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_91.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_91.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_91.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of TestAbstractInst.test_abstract_getclass ___________ item = <Function 'test_abstract_getclass'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tool/pytest/objspace.py:24: in gettestobjspace space = maketestobjspace(config) tool/pytest/objspace.py:34: in maketestobjspace space = make_objspace(config) tool/option.py:33: in make_objspace return StdObjSpace(config) interpreter/baseobjspace.py:455: in __init__ self.initialize() objspace/std/objspace.py:115: in initialize self.make_builtins() interpreter/baseobjspace.py:634: in make_builtins mod = Module(self, w_name) module/imp/moduledef.py:44: in __init__ from pypy.module.imp import interp_imp module/imp/interp_imp.py:1: in <module> from pypy.module.imp import importing module/imp/importing.py:14: in <module> from rpython.rlib import streamio, jit ../rpython/rlib/streamio.py:40: in <module> from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/_rsocket_rffi.py:1222: in <module> cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rtyper/tool/rffi_platform.py:216: in configure for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:241: in configure_entries writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:745: in run_example_code output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/tool/gcc_cache.py:28: in build_executable_cache result = platform.execute(platform.compile(c_files, eci)) ../rpython/translator/platform/__init__.py:57: in compile ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:79: in _compile_o_files ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/posix.py:44: in _compile_c_file cwd=str(cfile.dirpath())) ../rpython/translator/platform/__init__.py:143: in _execute_c_compiler self._handle_error(returncode, stdout, stderr, outname) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_92.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_92.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_92.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_92.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_92.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_92.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_92.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_92.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_92.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_92.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_92.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_92.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_92.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_92.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_92.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_92.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_92.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_92.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of AppTestAbstractInst.test_abstract_isinstance ________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_93.c: In functio...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cb02950>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_isinstance'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_abstract_isinstance'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_isinstance'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_abstract_isinstance'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_isinstance'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_abstract_isinstance'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_isinstance'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cbec5a0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...isinstance'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cbec500> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cbec500> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...isinstance'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_isinstance'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_abstract_isinstance'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d1edfd0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d1edfd0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d1edfd0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d1edfd0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d083490> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d05fec0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cd50710>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cd78350>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cd55dd0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_93.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_93.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_93.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_93.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_93.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_93.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_93.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_93.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_93.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_93.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_93.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_93.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_93.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_93.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_93.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_93.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_93.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_93.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_93.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_93.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_93.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_93.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_93.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_93.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of AppTestAbstractInst.test_abstract_issubclass ________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_94.c: In functio...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cd73950>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_issubclass'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_abstract_issubclass'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_issubclass'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_abstract_issubclass'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_issubclass'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_abstract_issubclass'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_issubclass'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c4ae8c0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...issubclass'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c4ae870> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c4ae870> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...issubclass'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_abstract_issubclass'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_abstract_issubclass'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c97f590> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c97f590> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c97f590> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c97f590> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659caf7f50> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d1391a0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c743290>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c541850>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c72cad0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_94.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_94.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_94.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_94.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_94.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_94.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_94.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_94.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_94.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_94.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_94.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_94.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_94.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_94.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_94.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_94.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_94.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_94.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_94.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_94.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_94.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_94.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_94.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_94.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of AppTestAbstractInst.test_overriding _____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_95.c: In functio...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cbdd150>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_overriding'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_overriding'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_overriding'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_overriding'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_overriding'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_overriding'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_overriding'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d6a8a50> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...overriding'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d6a8aa0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d6a8aa0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...overriding'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_overriding'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_overriding'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d6a3910> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d6a3910> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d6a3910> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d6a3910> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c71e890> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659caed280> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cb3c550>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cb41b10>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cb45c10>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_95.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_95.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_95.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_95.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_95.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_95.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_95.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_95.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_95.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_95.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_95.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_95.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_95.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_95.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_95.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_95.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_95.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_95.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_95.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_95.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_95.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_95.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_95.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_95.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _ ERROR at setup of AppTestAbstractInst.test_dont_call_instancecheck_fast_path _ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_96.c: In functio...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cb47950>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dont_call_instancecheck_fast_pa...__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dont_call_instancecheck_fast_path'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dont_call_instancecheck_fast_pa...__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dont_call_instancecheck_fast_path'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dont_call_instancecheck_fast_pa...__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dont_call_instancecheck_fast_path'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dont_call_instancecheck_fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cc9ec30> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cc9ea00> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cc9ea00> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dont_call_instancecheck_fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_dont_call_instancecheck_fast_path'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659cb4d310> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cb4d310> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cb4d310> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659cb4d310> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d087650> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c68b8a0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cc058d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cc03e90>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cbf1f90>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_96.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_96.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_96.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_96.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_96.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_96.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_96.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_96.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_96.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_96.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_96.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_96.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_96.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_96.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_96.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_96.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_96.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_96.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_96.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_96.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_96.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_96.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_96.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_96.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _ ERROR at setup of AppTestAbstractInst.test_instancecheck_exception_not_eaten _ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_97.c: In functio...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c8c7dd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_instancecheck_exception_not_eat...__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_instancecheck_exception_not_eaten'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_instancecheck_exception_not_eat...__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_instancecheck_exception_not_eaten'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_instancecheck_exception_not_eat...__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_instancecheck_exception_not_eaten'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_instancecheck_exception_not_eaten'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c447960> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._not_eaten'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c447870> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c447870> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._not_eaten'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_instancecheck_exception_not_eaten'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_instancecheck_exception_not_eaten'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c6a1710> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c6a1710> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c6a1710> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c6a1710> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659ca3b710> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d139f30> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cb49490>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cb37a50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cb45b50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_97.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_97.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_97.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_97.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_97.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_97.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_97.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_97.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_97.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_97.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_97.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_97.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_97.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_97.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_97.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_97.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_97.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_97.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_97.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_97.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_97.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_97.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_97.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_97.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __ ERROR at setup of AppTestAbstractInst.test_issubclass_exception_not_eaten ___ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_98.c: In functio...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659ce9dd50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_exception_not_eaten'...all__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_issubclass_exception_not_eaten'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_exception_not_eaten'...all__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_issubclass_exception_not_eaten'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_exception_not_eaten'...all__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_issubclass_exception_not_eaten'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_exception_not_eaten'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659ceac320> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._not_eaten'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659ceac690> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659ceac690> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._not_eaten'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_exception_not_eaten'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_issubclass_exception_not_eaten'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ca72b10> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ca72b10> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ca72b10> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ca72b10> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c94e610> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c978600> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659ceaa890>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659ceb0e50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659ce9bf50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_98.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_98.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_98.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_98.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_98.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_98.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_98.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_98.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_98.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_98.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_98.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_98.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_98.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_98.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_98.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_98.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_98.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_98.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_98.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_98.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_98.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_98.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_98.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_98.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______ ERROR at setup of AppTestAbstractInst.test_issubclass_no_fallback _______ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_99.c: In functio...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cff52d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_no_fallback'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_issubclass_no_fallback'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_no_fallback'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_issubclass_no_fallback'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_no_fallback'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_issubclass_no_fallback'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_no_fallback'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659ca43be0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...o_fallback'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659ca43b90> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659ca43b90> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...o_fallback'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_issubclass_no_fallback'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_issubclass_no_fallback'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659cf08210> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cf08210> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cf08210> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659cf08210> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cb03750> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d05fec0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c70f750>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c5947d0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c63aa10>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_99.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_99.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_99.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_99.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_99.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_99.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_99.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/us...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_99.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_99.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_99.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_99.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_99.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_99.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_99.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_99.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_99.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_99.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_99.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_99.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_99.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_99.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_99.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_99.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_99.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of AppTestAbstractInst.test_exception_match_does_not_call_subclasscheck self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_100.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d056d50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_match_does_not_call_s...tiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_match_does_not_call_subclasscheck'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_match_does_not_call_s...tiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_match_does_not_call_subclasscheck'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_match_does_not_call_s...tiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_match_does_not_call_subclasscheck'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_match_does_not_call_subclasscheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d34d820> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...classcheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d34d4b0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d34d4b0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...classcheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_match_does_not_call_subclasscheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_exception_match_does_not_call_subclasscheck'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d02ec50> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d02ec50> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d02ec50> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d02ec50> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d02f510> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c747210> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c96f790>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c956d50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c95ee50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_100.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_100.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_100.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_100.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_100.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_100.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_100.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_100.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_100.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_100.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_100.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_100.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_100.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_100.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_100.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_100.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_100.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_100.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_100.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_100.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_100.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_100.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_100.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_100.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ERROR at setup of AppTestAbstractInst.test_exception_raising_does_not_call_subclasscheck self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_101.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cdab0d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_raising_does_not_call...Call 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_raising_does_not_call_subclasscheck'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_raising_does_not_call...Call 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_raising_does_not_call_subclasscheck'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_raising_does_not_call...Call 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_raising_does_not_call_subclasscheck'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_raising_does_not_call_subclasscheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c4a6640> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...classcheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c4a62d0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c4a62d0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...classcheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_raising_does_not_call_subclasscheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_exception_raising_does_not_call_subclasscheck'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c4cad50> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c4cad50> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c4cad50> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c4cad50> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659ce8b8d0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c61fde0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cacdb50>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cacd150>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cad9250>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_101.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_101.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_101.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_101.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_101.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_101.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_101.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_101.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_101.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_101.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_101.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_101.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_101.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_101.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_101.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_101.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_101.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_101.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_101.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_101.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_101.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_101.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_101.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_101.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____ ERROR at setup of AppTestAbstractInst.test_exception_bad_subclasscheck ____ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_102.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c6258d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_bad_subclasscheck'>, ...ticall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_bad_subclasscheck'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_bad_subclasscheck'>, ...ticall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_bad_subclasscheck'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_bad_subclasscheck'>, ...ticall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_bad_subclasscheck'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_bad_subclasscheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c48afa0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...classcheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c48ae10> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c48ae10> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...classcheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_bad_subclasscheck'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_exception_bad_subclasscheck'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d01a510> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d01a510> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d01a510> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d01a510> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c6ff710> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d016670> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c594b50>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c716390>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c70f250>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_102.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_102.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_102.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_102.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_102.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_102.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_102.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_102.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_102.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_102.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_102.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_102.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_102.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_102.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_102.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_102.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_102.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_102.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_102.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_102.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_102.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_102.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_102.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_102.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___ ERROR at setup of AppTestAbstractInst.test_exception_contains_type_name ____ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_103.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cb3c8d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_contains_type_name'>,...icall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_contains_type_name'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_contains_type_name'>,...icall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_contains_type_name'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_contains_type_name'>,...icall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_exception_contains_type_name'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_contains_type_name'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c2f15a0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._type_name'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c2f1870> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c2f1870> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._type_name'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_exception_contains_type_name'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_exception_contains_type_name'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d5f0510> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d5f0510> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d5f0510> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d5f0510> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c89a490> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659cbc3d70> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c71b290>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c741850>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c70b950>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_103.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_103.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_103.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_103.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_103.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_103.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_103.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_103.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_103.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_103.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_103.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_103.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_103.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_103.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_103.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_103.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_103.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_103.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_103.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_103.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_103.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_103.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_103.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_103.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of AppTestBreakpoint.test_default _______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_104.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cb13050>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_default'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_default'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_default'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cd081e0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...st_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cd08960> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cd08960> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...st_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_default'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c92c750> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c92c750> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c92c750> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c92c750> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d13f490> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c8162f0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c422990>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cbdfad0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d6d0190>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_104.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_104.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_104.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_104.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_104.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_104.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_104.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_104.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_104.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_104.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_104.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_104.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_104.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_104.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_104.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_104.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_104.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_104.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_104.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_104.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_104.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_104.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_104.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_104.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of AppTestBreakpoint.test_args_kwargs _____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_105.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c611ad0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_args_kwargs'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_args_kwargs'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_args_kwargs'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_args_kwargs'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_args_kwargs'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_args_kwargs'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_args_kwargs'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c296780> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...rgs_kwargs'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c296500> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c296500> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...rgs_kwargs'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_args_kwargs'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_args_kwargs'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c17b550> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c17b550> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c17b550> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c17b550> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d042a50> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659cbc3f30> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d054050>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d01aad0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c754dd0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_105.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_105.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_105.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_105.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_105.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_105.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_105.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_105.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_105.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_105.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_105.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_105.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_105.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_105.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_105.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_105.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_105.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_105.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_105.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_105.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_105.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_105.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_105.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_105.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of AppTestBreakpoint.test_breakpointhook ____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_106.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d55dcd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_breakpointhook'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_breakpointhook'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_breakpointhook'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d6d42d0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...kpointhook'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d6d4410> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d6d4410> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...kpointhook'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_breakpointhook'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ca2b7d0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ca2b7d0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ca2b7d0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ca2b7d0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d00d2d0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659ced1440> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c616550>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c62bb10>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c63ec10>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_106.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_106.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_106.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_106.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_106.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_106.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_106.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_106.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_106.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_106.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_106.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_106.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_106.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_106.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_106.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_106.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_106.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_106.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_106.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_106.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_106.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_106.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_106.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_106.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of AppTestBreakpoint.test_breakpointhook_lost _________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_107.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659ced8850>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook_lost'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_breakpointhook_lost'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook_lost'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_breakpointhook_lost'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook_lost'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_breakpointhook_lost'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook_lost'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cbbb6e0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...thook_lost'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cbbba00> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cbbba00> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...thook_lost'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_breakpointhook_lost'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_breakpointhook_lost'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c5960d0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c5960d0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c5960d0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c5960d0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d570f10> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d08a830> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c401e50>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c401150>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c433490>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_107.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_107.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_107.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_107.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_107.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_107.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_107.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_107.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_107.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_107.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_107.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_107.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_107.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_107.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_107.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_107.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_107.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_107.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_107.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_107.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_107.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_107.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_107.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_107.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of AppTestBreakpoint.test_env_default _____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_108.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d06bb50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_default'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_default'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_default'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c3cd230> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...nv_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c3cd280> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c3cd280> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...nv_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_default'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_env_default'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c3c9d50> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c3c9d50> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c3c9d50> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c3c9d50> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c754710> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659ce8b360> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c76c150>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d5e08d0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c2f2ed0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_108.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_108.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_108.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_108.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_108.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_108.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_108.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_108.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_108.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_108.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_108.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_108.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_108.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_108.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_108.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_108.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_108.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_108.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_108.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_108.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_108.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_108.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_108.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_108.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of AppTestBreakpoint.test_env_disable _____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_109.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c17d550>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_disable'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_disable'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_disable'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_disable'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_disable'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_disable'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_disable'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cfb8820> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...nv_disable'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cfb86e0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cfb86e0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...nv_disable'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_disable'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_env_disable'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d35bfd0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d35bfd0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d35bfd0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d35bfd0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c51d5d0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c816980> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d05a7d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d05abd0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c281650>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_109.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_109.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_109.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_109.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_109.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_109.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_109.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_109.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_109.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_109.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_109.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_109.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_109.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_109.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_109.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_109.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_109.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_109.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_109.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_109.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_109.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_109.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_109.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_109.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of AppTestBreakpoint.test_env_other ______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_110.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d06b650>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_other'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_other'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_other'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_other'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_other'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_other'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_other'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c537690> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._env_other'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c5372d0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c5372d0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._env_other'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_other'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_env_other'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d2b9790> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d2b9790> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d2b9790> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d2b9790> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d5f0cd0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d5dc440> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c957410>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cf89850>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d6bc810>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_110.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_110.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_110.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_110.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_110.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_110.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_110.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_110.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_110.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_110.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_110.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_110.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_110.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_110.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_110.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_110.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_110.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_110.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_110.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_110.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_110.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_110.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_110.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_110.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of AppTestBreakpoint.test_env_nonexistent ___________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_111.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d6efd50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_nonexistent'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_nonexistent'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_nonexistent'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_nonexistent'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_nonexistent'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_env_nonexistent'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_nonexistent'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c925550> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...onexistent'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c925820> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c925820> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...onexistent'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_env_nonexistent'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_env_nonexistent'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d43f350> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d43f350> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d43f350> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d43f350> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d383090> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d02f9f0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d012e10>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d012410>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c645510>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_111.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_111.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_111.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_111.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_111.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_111.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_111.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_111.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_111.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_111.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_111.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_111.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_111.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_111.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_111.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_111.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_111.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_111.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_111.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_111.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_111.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_111.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_111.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_111.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of AppTestBuiltinApp.test_builtin_names ____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_112.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d6f0d50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_builtin_names'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_builtin_names'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_builtin_names'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_builtin_names'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_builtin_names'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_builtin_names'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_builtin_names'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c374280> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ltin_names'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c3742d0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c3742d0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ltin_names'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_builtin_names'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_builtin_names'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ce7f3d0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce7f3d0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce7f3d0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ce7f3d0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c433c90> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659cb46fa0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d354990>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d6f4450>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d6bc8d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_112.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_112.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_112.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_112.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_112.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_112.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_112.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_112.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_112.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_112.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_112.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_112.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_112.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_112.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_112.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_112.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_112.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_112.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_112.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_112.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_112.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_112.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_112.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_112.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of AppTestBuiltinApp.test_bytes_alias _____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_113.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cb31b50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bytes_alias'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_bytes_alias'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bytes_alias'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_bytes_alias'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bytes_alias'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_bytes_alias'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bytes_alias'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c3090f0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ytes_alias'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c309cd0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c309cd0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ytes_alias'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bytes_alias'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_bytes_alias'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659cccb850> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cccb850> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cccb850> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659cccb850> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c5f7290> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c881910> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d10e850>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cd585d0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659ca3bb10>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_113.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_113.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_113.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_113.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_113.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_113.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_113.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_113.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_113.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_113.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_113.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_113.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_113.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_113.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_113.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_113.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_113.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_113.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_113.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_113.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_113.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_113.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_113.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_113.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of AppTestBuiltinApp.test_eval_adds_builtins __________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_114.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c780b50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_eval_adds_builtins'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_eval_adds_builtins'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_eval_adds_builtins'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_eval_adds_builtins'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_eval_adds_builtins'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_eval_adds_builtins'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_eval_adds_builtins'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c80c2d0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...s_builtins'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c80c320> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c80c320> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...s_builtins'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_eval_adds_builtins'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_eval_adds_builtins'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d7060d0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d7060d0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d7060d0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d7060d0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cebd790> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c70dd00> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c67c290>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d571fd0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d04f2d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_114.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_114.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_114.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_114.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_114.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_114.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_114.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_114.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_114.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_114.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_114.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_114.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_114.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_114.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_114.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_114.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_114.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_114.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_114.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_114.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_114.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_114.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_114.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_114.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of AppTestBuiltinApp.test_import ________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_115.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d025ad0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_import'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_import'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_import'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_import'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_import'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_import'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_import'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c3cd500> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...est_import'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c3cd140> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c3cd140> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...est_import'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_import'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_import'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d6b6d50> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d6b6d50> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d6b6d50> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d6b6d50> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c76c410> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c760830> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d11b8d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d11b690>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cf8f250>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_115.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_115.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_115.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_115.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_115.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_115.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_115.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_115.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_115.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_115.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_115.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_115.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_115.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_115.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_115.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_115.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_115.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_115.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_115.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_115.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_115.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_115.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_115.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_115.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________________ ERROR at setup of AppTestBuiltinApp.test_ascii ________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_116.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c74c750>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_ascii'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_ascii'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_ascii'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_ascii'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_ascii'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_ascii'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_ascii'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c59a190> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...test_ascii'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c59ad70> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c59ad70> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...test_ascii'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_ascii'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_ascii'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c2a5890> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c2a5890> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c2a5890> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c2a5890> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cf9d510> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c8164b0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c3ddbd0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d571e50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d42da50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_116.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_116.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_116.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_116.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_116.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_116.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_116.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_116.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_116.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_116.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_116.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_116.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_116.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_116.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_116.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_116.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_116.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_116.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_116.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_116.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_116.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_116.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_116.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_116.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of AppTestBuiltinApp.test_bin _________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_117.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659ceafbd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bin'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_bin'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bin'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_bin'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bin'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_bin'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bin'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659ce77e10> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_bin'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659ce77f50> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659ce77f50> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_bin'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_bin'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_bin'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c3a1990> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c3a1990> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c3a1990> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c3a1990> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c461fd0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d5653d0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c737550>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c70f690>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659caffa50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_117.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_117.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_117.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_117.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_117.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_117.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_117.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_117.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_117.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_117.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_117.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_117.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_117.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_117.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_117.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_117.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_117.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_117.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_117.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_117.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_117.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_117.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_117.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_117.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of AppTestBuiltinApp.test_oct _________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_118.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c863ad0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_oct'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_oct'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_oct'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_oct'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_oct'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_oct'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_oct'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d2be280> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_oct'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d2bec30> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d2bec30> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_oct'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_oct'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_oct'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c32c290> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c32c290> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c32c290> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c32c290> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d2fb890> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c16fec0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d6f4390>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d04f8d0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c9e9e10>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_118.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_118.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_118.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_118.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_118.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_118.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_118.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_118.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_118.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_118.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_118.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_118.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_118.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_118.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_118.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_118.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_118.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_118.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_118.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_118.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_118.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_118.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_118.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_118.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of AppTestBuiltinApp.test_hex _________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_119.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c186750>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_hex'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_hex'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_hex'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_hex'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_hex'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_hex'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_hex'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d34d960> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_hex'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d34d500> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d34d500> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_hex'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_hex'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_hex'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d05af90> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d05af90> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d05af90> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d05af90> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c059250> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c6fb600> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c7e0450>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d706650>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c7546d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_119.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_119.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_119.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_119.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_119.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_119.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_119.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_119.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_119.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_119.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_119.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_119.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_119.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_119.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_119.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_119.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_119.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_119.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_119.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_119.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_119.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_119.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_119.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_119.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of AppTestBuiltinApp.test_chr _________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_120.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d54bad0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_chr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_chr'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_chr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_chr'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_chr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_chr'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_chr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cb779b0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_chr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cb77780> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cb77780> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_chr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_chr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_chr'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c2c0b90> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c2c0b90> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c2c0b90> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c2c0b90> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c541190> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c126de0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cbdfb90>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c1d85d0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c125e10>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_120.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_120.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_120.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_120.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_120.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_120.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_120.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_120.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_120.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_120.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_120.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_120.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_120.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_120.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_120.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_120.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_120.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_120.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_120.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_120.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_120.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_120.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_120.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_120.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of AppTestBuiltinApp.test_globals _______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_121.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c43e4d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_globals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_globals'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_globals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_globals'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_globals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_globals'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_globals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c44bb90> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...st_globals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c44b870> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c44b870> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...st_globals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_globals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_globals'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d5876d0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d5876d0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d5876d0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d5876d0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c71e810> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d5651a0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c10d490>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c10dcd0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c5ec410>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_121.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_121.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_121.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_121.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_121.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_121.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_121.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_121.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_121.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_121.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_121.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_121.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_121.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_121.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_121.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_121.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_121.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_121.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_121.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_121.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_121.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_121.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_121.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_121.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of AppTestBuiltinApp.test_locals ________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_122.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c14dad0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_locals'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_locals'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_locals'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c566910> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...est_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c566dc0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c566dc0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...est_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_locals'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c7264d0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c7264d0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c7264d0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c7264d0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c6b1510> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c6abd00> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cb974d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cf9f950>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d1d41d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_122.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_122.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_122.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_122.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_122.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_122.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_122.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_122.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_122.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_122.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_122.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_122.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_122.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_122.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_122.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_122.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_122.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_122.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_122.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_122.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_122.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_122.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_122.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_122.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of AppTestBuiltinApp.test_locals_deleted_local _________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_123.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c1384d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals_deleted_local'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_locals_deleted_local'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals_deleted_local'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_locals_deleted_local'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals_deleted_local'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_locals_deleted_local'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals_deleted_local'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cbcd190> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...eted_local'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cbcd050> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cbcd050> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...eted_local'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_locals_deleted_local'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_locals_deleted_local'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c31f610> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c31f610> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c31f610> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c31f610> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cad2b90> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c3b8ad0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d960510>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d664410>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c90fc50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_123.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_123.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_123.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_123.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_123.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_123.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_123.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_123.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_123.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_123.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_123.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_123.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_123.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_123.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_123.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_123.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_123.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_123.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_123.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_123.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_123.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_123.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_123.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_123.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of AppTestBuiltinApp.test_dir _________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_124.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d56b9d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c6b87d0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_dir'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c6b8050> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c6b8050> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_dir'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_dir'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d4d9910> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d4d9910> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d4d9910> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d4d9910> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cb92590> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c6988a0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c010650>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659bff5a90>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cccb650>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_124.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_124.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_124.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_124.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_124.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_124.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_124.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_124.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_124.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_124.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_124.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_124.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_124.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_124.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_124.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_124.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_124.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_124.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_124.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_124.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_124.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_124.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_124.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_124.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of AppTestBuiltinApp.test_dir_in_broken_locals _________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_125.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c6a6c50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_in_broken_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_in_broken_locals'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_in_broken_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_in_broken_locals'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_in_broken_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_in_broken_locals'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_in_broken_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c33a820> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ken_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c33a550> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c33a550> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ken_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_in_broken_locals'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_dir_in_broken_locals'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c71e490> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c71e490> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c71e490> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c71e490> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d1d6b50> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c5b23d0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c51d050>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c6b92d0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d2b9ed0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_125.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_125.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_125.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_125.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_125.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_125.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_125.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_125.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_125.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_125.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_125.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_125.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_125.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_125.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_125.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_125.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_125.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_125.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_125.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_125.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_125.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_125.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_125.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_125.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of AppTestBuiltinApp.test_dir_broken_module __________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_126.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d3f13d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_module'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_broken_module'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_module'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_broken_module'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_module'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_broken_module'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_module'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c916050> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ken_module'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c916230> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c916230> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ken_module'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_module'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_dir_broken_module'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ced2a10> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ced2a10> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ced2a10> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ced2a10> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d169d90> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c6bede0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d2e39d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c1d5390>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d036350>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_126.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_126.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_126.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_126.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_126.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_126.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_126.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_126.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_126.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_126.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_126.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_126.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_126.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_126.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_126.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_126.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_126.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_126.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_126.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_126.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_126.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_126.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_126.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_126.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of AppTestBuiltinApp.test_dir_broken_object __________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_127.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c6a6e50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_object'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_broken_object'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_object'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_broken_object'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_object'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_broken_object'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_object'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c761690> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ken_object'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c761190> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c761190> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ken_object'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_broken_object'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_dir_broken_object'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c774a10> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c774a10> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c774a10> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c774a10> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c62db90> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c0d64b0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d4d9250>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d4d96d0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c8fe210>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_127.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_127.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_127.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_127.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_127.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_127.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_127.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_127.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_127.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_127.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_127.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_127.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_127.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_127.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_127.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_127.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_127.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_127.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_127.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_127.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_127.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_127.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_127.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_127.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of AppTestBuiltinApp.test_dir_custom ______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_128.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c177bd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_custom'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_custom'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_custom'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659beecb40> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...dir_custom'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659beec640> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659beec640> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...dir_custom'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_dir_custom'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659cf08ad0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cf08ad0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cf08ad0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659cf08ad0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cb9f190> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d5dfa60> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d4f1bd0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c0d8b90>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cc106d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_128.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_128.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_128.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_128.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_128.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_128.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_128.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_128.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_128.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_128.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_128.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_128.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_128.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_128.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_128.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_128.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_128.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_128.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_128.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_128.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_128.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_128.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_128.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_128.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ __________ ERROR at setup of AppTestBuiltinApp.test_dir_custom_lookup __________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_129.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d5d9650>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom_lookup'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_custom_lookup'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom_lookup'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_custom_lookup'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom_lookup'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_dir_custom_lookup'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom_lookup'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c2fc500> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...tom_lookup'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c2fc460> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c2fc460> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...tom_lookup'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_dir_custom_lookup'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_dir_custom_lookup'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c425150> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c425150> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c425150> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c425150> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d1e0250> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659cbf7c20> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659bf6d210>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d56c550>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c62df50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_129.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_129.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_129.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_129.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_129.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_129.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_129.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_129.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_129.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_129.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_129.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_129.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_129.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_129.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_129.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_129.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_129.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_129.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_129.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_129.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_129.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_129.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_129.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_129.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______________ ERROR at setup of AppTestBuiltinApp.test_format ________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_130.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c75ebd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_format'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_format'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_format'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_format'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_format'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_format'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_format'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c9e5aa0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...est_format'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c9e55a0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c9e55a0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...est_format'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_format'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_format'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c401510> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c401510> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c401510> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c401510> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d2fbe90> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659cc44980> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d2d10d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c570250>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c754250>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_130.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_130.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_130.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_130.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_130.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_130.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_130.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_130.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_130.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_130.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_130.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_130.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_130.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_130.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_130.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_130.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_130.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_130.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_130.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_130.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_130.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_130.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_130.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_130.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________________ ERROR at setup of AppTestBuiltinApp.test_vars _________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_131.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cc1e3d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_vars'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_vars'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_vars'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_vars'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_vars'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_vars'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_vars'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659bf41690> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...'test_vars'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bf419b0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bf419b0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...'test_vars'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_vars'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_vars'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d2a2a90> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d2a2a90> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d2a2a90> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d2a2a90> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c7ee150> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659bf24980> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d56c310>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d56cb10>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659bf6d710>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_131.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_131.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_131.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_131.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_131.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_131.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_131.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_131.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_131.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_131.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_131.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_131.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_131.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_131.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_131.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_131.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_131.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_131.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_131.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_131.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_131.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_131.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_131.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_131.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________________ ERROR at setup of AppTestBuiltinApp.test_sum _________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_132.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cc2dbd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cc425f0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_sum'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cc42500> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cc42500> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i... 'test_sum'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_sum'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c699f50> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c699f50> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c699f50> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c699f50> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d42dcd0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c79c8a0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c425f10>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d2a5810>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c3a1fd0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_132.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_132.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_132.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_132.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_132.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_132.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_132.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_132.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_132.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_132.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_132.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_132.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_132.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_132.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_132.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_132.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_132.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_132.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_132.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_132.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_132.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_132.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_132.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_132.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of AppTestBuiltinApp.test_sum_fast_path ____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_133.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c7943d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_fast_path'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_fast_path'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_fast_path'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d17df50> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d17dcd0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d17dcd0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_fast_path'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_sum_fast_path'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c249cd0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c249cd0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c249cd0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c249cd0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c91a550> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c840980> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d4a0590>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659ce80510>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d01a5d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_133.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_133.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_133.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_133.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_133.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_133.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_133.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_133.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_133.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_133.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_133.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_133.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_133.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_133.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_133.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_133.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_133.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_133.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_133.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_133.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_133.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_133.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_133.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_133.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________ ERROR at setup of AppTestBuiltinApp.test_sum_empty_edge_cases _________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_134.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cc2dbd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_empty_edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_empty_edge_cases'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_empty_edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_empty_edge_cases'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_empty_edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_empty_edge_cases'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_empty_edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c40e870> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c40e820> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c40e820> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_empty_edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_sum_empty_edge_cases'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c89a210> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c89a210> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c89a210> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c89a210> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d1ed4d0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c79c2f0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d2e3910>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659ce75590>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d05a810>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_134.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_134.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_134.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_134.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_134.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_134.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_134.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_134.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_134.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_134.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_134.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_134.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_134.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_134.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_134.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_134.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_134.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_134.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_134.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_134.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_134.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_134.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_134.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_134.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of AppTestBuiltinApp.test_sum_type_errors ___________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_135.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d3dab50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_type_errors'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_type_errors'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_type_errors'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_type_errors'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_type_errors'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_type_errors'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_type_errors'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cc17460> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ype_errors'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cc170f0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cc170f0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ype_errors'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_type_errors'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_sum_type_errors'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ce4b350> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce4b350> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce4b350> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ce4b350> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d688710> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659bf2ef30> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c898b50>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c081f50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d1d40d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_135.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_135.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_135.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_135.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_135.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_135.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_135.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_135.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_135.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_135.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_135.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_135.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_135.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_135.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_135.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_135.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_135.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_135.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_135.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_135.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_135.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_135.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_135.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_135.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _________ ERROR at setup of AppTestBuiltinApp.test_sum_strange_objects _________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_136.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659bf225d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_strange_objects'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_strange_objects'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_strange_objects'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_strange_objects'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_strange_objects'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_strange_objects'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_strange_objects'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cbae5a0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ge_objects'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cbae5f0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cbae5f0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...ge_objects'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_strange_objects'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_sum_strange_objects'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659d17c5d0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d17c5d0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659d17c5d0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659d17c5d0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c7c1950> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c436360> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c283710>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cd04550>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d0366d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_136.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_136.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_136.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_136.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_136.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_136.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_136.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_136.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_136.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_136.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_136.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_136.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_136.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_136.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_136.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_136.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_136.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_136.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_136.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_136.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_136.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_136.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_136.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_136.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____ ERROR at setup of AppTestBuiltinApp.test_sum_first_object_edge_cases _____ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_137.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cc06cd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_first_object_edge_cases'>, ...ticall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_first_object_edge_cases'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_first_object_edge_cases'>, ...ticall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_first_object_edge_cases'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_first_object_edge_cases'>, ...ticall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_sum_first_object_edge_cases'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_first_object_edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d552550> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d5522d0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d5522d0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_sum_first_object_edge_cases'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_sum_first_object_edge_cases'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ce80050> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce80050> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce80050> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ce80050> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c1d81d0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c580e50> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c413990>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d664b10>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cb97c50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_137.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_137.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_137.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_137.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_137.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_137.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_137.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_137.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_137.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_137.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_137.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_137.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_137.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_137.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_137.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_137.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_137.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_137.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_137.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_137.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_137.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_137.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_137.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_137.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of AppTestBuiltinApp.test_type_selftest ____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_138.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c5794d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_type_selftest'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_type_selftest'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_type_selftest'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_type_selftest'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_type_selftest'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_type_selftest'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_type_selftest'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659bc8d2d0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_selftest'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bc8d730> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bc8d730> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_selftest'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_type_selftest'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_type_selftest'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c0efcd0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c0efcd0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c0efcd0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c0efcd0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c19cf10> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659cc308a0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d2b9590>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d037350>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659bcb8110>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_138.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_138.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_138.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_138.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_138.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_138.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_138.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_138.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_138.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_138.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_138.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_138.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_138.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_138.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_138.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_138.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_138.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_138.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_138.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_138.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_138.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_138.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_138.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_138.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of AppTestBuiltinApp.test_iter_sequence ____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_139.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d5eac50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_sequence'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter_sequence'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_sequence'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter_sequence'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_sequence'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter_sequence'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_sequence'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659bd730a0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...r_sequence'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bd73c30> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bd73c30> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...r_sequence'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_sequence'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_iter_sequence'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c484c50> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c484c50> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c484c50> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c484c50> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659d423690> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c3a5d70> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d56c810>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c1b9050>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cf9d750>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_139.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_139.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_139.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_139.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_139.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_139.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_139.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_139.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_139.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_139.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_139.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_139.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_139.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_139.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_139.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_139.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_139.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_139.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_139.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_139.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_139.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_139.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_139.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_139.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of AppTestBuiltinApp.test_iter___iter__ ____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_140.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c38c4d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter___iter__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter___iter__'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter___iter__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter___iter__'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter___iter__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter___iter__'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter___iter__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659cfa0910> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...r___iter__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cfa0a00> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659cfa0a00> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...r___iter__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter___iter__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_iter___iter__'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659bf66a90> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659bf66a90> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659bf66a90> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659bf66a90> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cbff410> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d3e8f30> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cd09ad0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cf08510>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659bff5990>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_140.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_140.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_140.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_140.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_140.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_140.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_140.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_140.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_140.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_140.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_140.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_140.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_140.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_140.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_140.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_140.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_140.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_140.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_140.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_140.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_140.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_140.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_140.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_140.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of AppTestBuiltinApp.test_iter_callable_sentinel ________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_141.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c7a0a50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_callable_sentinel'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter_callable_sentinel'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_callable_sentinel'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter_callable_sentinel'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_callable_sentinel'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_iter_callable_sentinel'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_callable_sentinel'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c2fc5f0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_sentinel'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c2fc3c0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c2fc3c0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_sentinel'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_iter_callable_sentinel'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_iter_callable_sentinel'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659cccb850> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cccb850> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cccb850> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659cccb850> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cd62610> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d69d910> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cd6d5d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d572f10>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c2e13d0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_141.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_141.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_141.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_141.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_141.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_141.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_141.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_141.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_141.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_141.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_141.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_141.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_141.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_141.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_141.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_141.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_141.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_141.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_141.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_141.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_141.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_141.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_141.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_141.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of AppTestBuiltinApp.test_enumerate ______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_142.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d6cabd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_enumerate'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_enumerate'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_enumerate'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_enumerate'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_enumerate'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_enumerate'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_enumerate'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c332d20> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._enumerate'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c332960> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c332960> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._enumerate'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_enumerate'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_enumerate'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659beb0210> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659beb0210> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659beb0210> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659beb0210> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cf92dd0> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d65a440> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659be53950>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659be53550>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c422350>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_142.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_142.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_142.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_142.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_142.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_142.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_142.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_142.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_142.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_142.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_142.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_142.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_142.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_142.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_142.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_142.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_142.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_142.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_142.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_142.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_142.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_142.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_142.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_142.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ________________ ERROR at setup of AppTestBuiltinApp.test_next _________________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_143.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d2a11d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_next'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_next'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_next'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d6a1a50> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...'test_next'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bc35460> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bc35460> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...'test_next'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_next'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659bf11c50> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659bf11c50> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659bf11c50> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659bf11c50> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cba1a90> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659d69d520> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c6729d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659cafff50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cb97950>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_143.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_143.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_143.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_143.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_143.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_143.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_143.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_143.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_143.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_143.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_143.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_143.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_143.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_143.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_143.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_143.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_143.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_143.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_143.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_143.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_143.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_143.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_143.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_143.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ____________ ERROR at setup of AppTestBuiltinApp.test_next__next__ _____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_144.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659d658bd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next__next__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_next__next__'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next__next__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_next__next__'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next__next__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_next__next__'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next__next__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d6bdd70> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...xt__next__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d6bd0f0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d6bd0f0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...xt__next__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_next__next__'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_next__next__'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ce641d0> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce641d0> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce641d0> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ce641d0> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c72e310> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c25c360> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c010e10>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659bf66a10>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c006610>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_144.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_144.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_144.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_144.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_144.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_144.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_144.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_144.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_144.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_144.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_144.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_144.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_144.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_144.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_144.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_144.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_144.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_144.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_144.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_144.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_144.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_144.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_144.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_144.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of AppTestBuiltinApp.test_range_args ______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_145.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c24be50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_args'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_args'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_args'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659bd0abe0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...range_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bd0ab90> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bd0ab90> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...range_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_range_args'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c92ec90> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c92ec90> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c92ec90> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c92ec90> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c10d050> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c3c4130> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d6ad0d0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659bd37e50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d4b3ad0>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_145.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_145.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_145.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_145.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_145.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_145.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_145.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_145.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_145.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_145.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_145.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_145.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_145.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_145.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_145.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_145.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_145.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_145.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_145.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_145.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_145.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_145.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_145.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_145.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of AppTestBuiltinApp.test_range_repr ______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_146.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c38ebd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_repr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_repr'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_repr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_repr'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_repr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_repr'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_repr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659bae9c30> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...range_repr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bae9b40> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659bae9b40> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...range_repr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_repr'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_range_repr'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c427550> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c427550> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c427550> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c427550> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c1f9410> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c3c4910> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cd9aed0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c1e7650>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c5b4b50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_146.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_146.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_146.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_146.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_146.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_146.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_146.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_146.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_146.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_146.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_146.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_146.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_146.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_146.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_146.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_146.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_146.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_146.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_146.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_146.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_146.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_146.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_146.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_146.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of AppTestBuiltinApp.test_range_up _______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_147.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cc31e50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_up'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_up'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_up'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_up'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_up'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_up'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_up'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c32e780> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...t_range_up'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c32e9b0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c32e9b0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...t_range_up'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_up'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_range_up'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659cae6950> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cae6950> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cae6950> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659cae6950> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659bd2e890> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659cf7fbb0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659be53cd0>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d186a50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cfa6890>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_147.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_147.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_147.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_147.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_147.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_147.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_147.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_147.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_147.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_147.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_147.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_147.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_147.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_147.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_147.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_147.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_147.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_147.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_147.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_147.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_147.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_147.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_147.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_147.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _____________ ERROR at setup of AppTestBuiltinApp.test_range_down ______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_148.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659bf169d0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_down'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_down'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_down'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_down'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_down'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_down'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_down'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659d2930f0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...range_down'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d2934b0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659d2934b0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...range_down'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_down'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_range_down'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ce4b050> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce4b050> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ce4b050> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ce4b050> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c2c0d90> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c50fde0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c77a550>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c77a0d0>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c3d1810>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_148.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_148.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_148.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_148.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_148.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_148.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_148.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_148.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_148.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_148.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_148.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_148.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_148.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_148.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_148.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_148.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_148.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_148.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_148.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_148.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_148.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_148.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_148.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_148.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ _______ ERROR at setup of AppTestBuiltinApp.test_range_has_type_identity _______ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_149.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659bfaabd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_has_type_identity'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_has_type_identity'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_has_type_identity'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_has_type_identity'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_has_type_identity'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_has_type_identity'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_has_type_identity'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c0910f0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_identity'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c0910a0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c0910a0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_identity'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_has_type_identity'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_range_has_type_identity'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659cb74590> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cb74590> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659cb74590> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659cb74590> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c9fa790> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c56f910> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c010690>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659c519050>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d036410>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_149.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_149.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_149.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_149.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_149.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_149.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_149.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_149.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_149.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_149.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_149.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_149.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_149.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_149.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_149.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_149.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_149.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_149.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_149.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_149.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_149.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_149.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_149.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_149.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ______________ ERROR at setup of AppTestBuiltinApp.test_range_len ______________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_150.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659c586bd0>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_len'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_len'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_len'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_len'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_len'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_len'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_len'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c2bf370> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._range_len'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c2bf9b0> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c2bf9b0> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i..._range_len'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_len'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_range_len'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659c125c90> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c125c90> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659c125c90> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659c125c90> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c96e950> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c50f670> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659d4f1650>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d6bc990>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659cf91910>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_150.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_150.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_150.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_150.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_150.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_150.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_150.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_150.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_150.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_150.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_150.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_150.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_150.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_150.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_150.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_150.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_150.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_150.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_150.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_150.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_150.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_150.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_150.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_150.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of AppTestBuiltinApp.test_range_indexing ____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_151.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cf4b950>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_indexing'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_indexing'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_indexing'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_indexing'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_indexing'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_indexing'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_indexing'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c9f0460> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_indexing'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c9f0820> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c9f0820> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_indexing'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_indexing'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_range_indexing'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659baf3a10> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659baf3a10> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659baf3a10> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659baf3a10> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659cf7bf50> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArray(rffi.UINT, 7))]) WSAPROTOCOLCHAIN = CConfig.WSAPROTOCOLCHAIN GUID = CConfig.GUID CConfig.WSAPROTOCOL_INFOW = platform.Struct( 'struct _WSAPROTOCOL_INFOW', [('dwServiceFlags1', rffi.UINT), ('dwServiceFlags2', rffi.UINT), ('dwServiceFlags3', rffi.UINT), ('dwServiceFlags4', rffi.UINT), ('dwProviderFlags', rffi.UINT), ('ProviderId', GUID), ('dwCatalogEntryId', rffi.UINT), ('ProtocolChain', WSAPROTOCOLCHAIN), ('iVersion', rffi.INT), ('iAddressFamily', rffi.INT), ('iMaxSockAddr', rffi.INT), ('iMinSockAddr', rffi.INT), ('iSocketType', rffi.INT), ('iProtocol', rffi.INT), ('iProtocolMaxOffset', rffi.INT), ('iNetworkByteOrder', rffi.INT), ('iSecurityScheme', rffi.INT), ('dwMessageSize', rffi.UINT), ('dwProviderReserved', rffi.UINT), ('szProtocol', rffi.CFixedArray(rffi.UCHAR, 256))]) class cConfig: pass > cConfig.__dict__.update(platform.configure(CConfig)) ../rpython/rlib/_rsocket_rffi.py:1222: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ CConfig = <class rpython.rlib._rsocket_rffi.CConfig at 0x7f659c4ee2f0> ignore_errors = False def configure(CConfig, ignore_errors=False): """Examine the local system by running the C compiler. The CConfig class contains CConfigEntry attribues that describe what should be inspected; configure() returns a dict mapping names to the results. """ for attr in ['_includes_', '_libraries_', '_sources_', '_library_dirs_', '_include_dirs_', '_header_']: assert not hasattr(CConfig, attr), \ "Found legacy attribute %s on CConfig" % attr eci = CConfig._compilation_info_ entries = {} for key in dir(CConfig): value = getattr(CConfig, key) if isinstance(value, CConfigEntry): entries[key] = value res = {} if entries: # can be empty if there are only CConfigSingleEntries results = configure_entries( entries.values(), eci, ignore_errors=ignore_errors) > for name, result in zip(entries, results): ../rpython/rtyper/tool/rffi_platform.py:216: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ entries = [<rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c7fdb10>, <rpython.rtyper.tool.rffi_platfo...er object at 0x7f659d4d4b50>, <rpython.rtyper.tool.rffi_platform.DefinedConstantInteger object at 0x7f659c250f50>, ...] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def configure_entries(entries, eci, ignore_errors=False): writer = _CWriter(eci) writer.write_header() for i, entry in enumerate(entries): writer.write_entry(str(i), entry) writer.start_main() for i, entry in enumerate(entries): writer.write_entry_main(str(i)) writer.close() infolist = list(run_example_code( > writer.path, eci, ignore_errors=ignore_errors)) ../rpython/rtyper/tool/rffi_platform.py:241: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ filepath = local('/tmp/pytest/usession-py3.11-791/platcheck_151.c') eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def run_example_code(filepath, eci, ignore_errors=False): eci = eci.convert_sources_to_files() files = [filepath] > output = build_executable_cache(files, eci, ignore_errors=ignore_errors) ../rpython/rtyper/tool/rffi_platform.py:745: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ c_files = [local('/tmp/pytest/usession-py3.11-791/platcheck_151.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> ignore_errors = False def build_executable_cache(c_files, eci, ignore_errors=False): "Builds and run a program; caches the result" # Import 'platform' every time, the compiler may have been changed from rpython.translator.platform import platform path = cache_file_path(c_files, eci, 'build_executable_cache') try: return path.read() except py.error.Error: _previous = platform.log_errors try: if ignore_errors: platform.log_errors = False > result = platform.execute(platform.compile(c_files, eci)) ../rpython/tool/gcc_cache.py:28: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_151.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> outputfilename = None, standalone = True def compile(self, cfiles, eci, outputfilename=None, standalone=True): > ofiles = self._compile_o_files(cfiles, eci, standalone) ../rpython/translator/platform/__init__.py:57: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc> cfiles = [local('/tmp/pytest/usession-py3.11-791/platcheck_151.c')] eci = <ExternalCompilationInfo (pre_include_bits=(), includes=('sys/types.h', 'sys/s...iles=(), testonly_libraries=(), use_cpp_linker=False, platform=<Linux cc=gcc>)> standalone = True def _compile_o_files(self, cfiles, eci, standalone=True): cfiles = self._all_cfiles(cfiles, eci) compile_args = self._compile_args_from_eci(eci, standalone) ofiles = [] for cfile in cfiles: # Windows hack: use masm for files ending in .asm if str(cfile).lower().endswith('.asm'): ofiles.append(self._compile_c_file(self.masm, cfile, [])) else: > ofiles.append(self._compile_c_file(self.cc, cfile, compile_args)) ../rpython/translator/platform/__init__.py:79: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' cfile = local('/tmp/pytest/usession-py3.11-791/platcheck_151.c') compile_args = ['-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', '-Wno-address', ...] def _compile_c_file(self, cc, cfile, compile_args): oname = self._make_o_file(cfile, ext='o') args = ['-c'] + compile_args + [str(cfile), '-o', str(oname)] self._execute_c_compiler(cc, args, oname, > cwd=str(cfile.dirpath())) ../rpython/translator/platform/posix.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, cc = 'gcc' args = ['-c', '-O3', '-pthread', '-fomit-frame-pointer', '-Wall', '-Wno-unused', ...] outname = local('/tmp/pytest/usession-py3.11-791/platcheck_151.o') cwd = '/tmp/pytest/usession-py3.11-791' def _execute_c_compiler(self, cc, args, outname, cwd=None): #log.execute(cc + ' ' + ' '.join(args)) # 'cc' can also contain some options for the C compiler; # e.g. it can be "gcc -m32". We handle it by splitting on ' '. cclist = cc.split() cc = cclist[0] args = cclist[1:] + args returncode, stdout, stderr = _run_subprocess(cc, args, self.c_environ, cwd) > self._handle_error(returncode, stdout, stderr, outname) ../rpython/translator/platform/__init__.py:143: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <Linux cc=gcc>, returncode = 1, stdout = '' stderr = '/tmp/pytest/usession-py3.11-791/platcheck_151.c: In function \xe2\x80\x98dump_section_447\xe2\x80\x99:\n/tmp/pytest/u...x80\x99}\n 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n | ^~~~~~~~\n' outname = local('/tmp/pytest/usession-py3.11-791/platcheck_151.o') def _handle_error(self, returncode, stdout, stderr, outname): if returncode != 0: errorfile = outname.new(ext='errors') errorfile.write(stderr, 'wb') if self.log_errors: stderrlines = stderr.splitlines() for line in stderrlines: log.Error(line) # ^^^ don't use ERROR, because it might actually be fine. # Also, ERROR confuses lib-python/conftest.py. > raise CompilationError(stdout, stderr) E CompilationError: CompilationError(err=""" E /tmp/pytest/usession-py3.11-791/platcheck_151.c: In function ‘dump_section_447’: E /tmp/pytest/usession-py3.11-791/platcheck_151.c:6933:18: error: field ‘s’ has incomplete type E 6933 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_151.c:6936:14: error: storage size of ‘s’ isn’t known E 6936 | platcheck_t s; E | ^ E /tmp/pytest/usession-py3.11-791/platcheck_151.c:6939:23: error: invalid application of ‘sizeof’ to incomplete type ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6939 | dump("size", sizeof(platcheck_t)); E | ^~~~~~~~~~~ E In file included from /tmp/pytest/usession-py3.11-791/platcheck_151.c:143: E /tmp/pytest/usession-py3.11-791/platcheck_151.c:6940:27: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_151.c:6944:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node)); E | ^~~~~~~~ E /tmp/pytest/usession-py3.11-791/platcheck_151.c:6948:25: error: invalid use of incomplete typedef ‘platcheck_t’ {aka ‘struct sockaddr_qrtr’} E 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); E | ^~~~~~~~ E """) ../rpython/translator/platform/__init__.py:155: CompilationError ---------------------------- Captured stderr setup ----------------------------- [platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_151.c: In function \u2018dump_section_447\u2019:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_151.c:6933:18: error: field \u2018s\u2019 has incomplete type\n[platform:Error] 6933 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_151.c:6936:14: error: storage size of \u2018s\u2019 isn\u2019t known\n[platform:Error] 6936 | platcheck_t s;\n[platform:Error] | ^\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_151.c:6939:23: error: invalid application of \u2018sizeof\u2019 to incomplete type \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6939 | dump("size", sizeof(platcheck_t));\n[platform:Error] | ^~~~~~~~~~~\n[platform:Error] In file included from /tmp/pytest/usession-py3.11-791/platcheck_151.c:143:\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_151.c:6940:27: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6940 | dump("fldofs sq_family", offsetof(platcheck_t, sq_family));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_151.c:6944:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6944 | dump("fldofs sq_node", offsetof(platcheck_t, sq_node));\n[platform:Error] | ^~~~~~~~\n[platform:Error] /tmp/pytest/usession-py3.11-791/platcheck_151.c:6948:25: error: invalid use of incomplete typedef \u2018platcheck_t\u2019 {aka \u2018struct sockaddr_qrtr\u2019}\n[platform:Error] 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port));\n[platform:Error] | ^~~~~~~~ ___________ ERROR at setup of AppTestBuiltinApp.test_range_bad_args ____________ self = <CallInfo when='setup' exception: CompilationError(err=""" /tmp/pytest/usession-py3.11-791/platcheck_152.c: In functi...’} 6948 | dump("fldofs sq_port", offsetof(platcheck_t, sq_port)); | ^~~~~~~~ """)> func = <function <lambda> at 0x7f659cb06b50>, when = 'setup' def __init__(self, func, when): #: context of invocation: one of "setup", "call", #: "teardown", "memocollect" self.when = when self.start = time() try: > self.result = func() ../_pytest/runner.py:150: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > return CallInfo(lambda: ihook(item=item, **kwds), when=when) ../_pytest/runner.py:138: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_HookCaller 'pytest_runtest_setup'> kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_bad_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_bad_args'>} def __call__(self, **kwargs): assert not self.is_historic() > return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs) ../_pytest/vendored_packages/pluggy.py:724: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.config.PytestPluginManager object at 0x7f65a37e8f50> hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_bad_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_bad_args'>} def _hookexec(self, hook, methods, kwargs): # called from all hookcaller instances. # enable_tracing will set its own wrapping function at self._inner_hookexec > return self._inner_hookexec(hook, methods, kwargs) ../_pytest/vendored_packages/pluggy.py:338: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ hook = <_HookCaller 'pytest_runtest_setup'> methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a107e9b0>, <_pytest.vendored_packages.pluggy.HookImpl in...es.pluggy.HookImpl instance at 0x7f65a1e6a6e0>, <_pytest.vendored_packages.pluggy.HookImpl instance at 0x7f65a1e408c0>] kwargs = {'__multicall__': <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_bad_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_range_bad_args'>} self._inner_hookexec = lambda hook, methods, kwargs: \ > _MultiCall(methods, kwargs, hook.spec_opts).execute() ../_pytest/vendored_packages/pluggy.py:333: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_bad_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: > return _wrapped_call(hook_impl.function(*args), self.execute) ../_pytest/vendored_packages/pluggy.py:595: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ wrap_controller = <generator object pytest_runtest_setup at 0x7f659c1ca820> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_bad_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def _wrapped_call(wrap_controller, func): """ Wrap calling to a function with a generator which needs to yield exactly once. The yield point will trigger calling the wrapped function and return its _CallOutcome to the yield point. The generator then needs to finish (raise StopIteration) in order for the wrapped call to complete. """ try: next(wrap_controller) # first yield except StopIteration: _raise_wrapfail(wrap_controller, "did not yield") call_outcome = _CallOutcome(func) try: wrap_controller.send(call_outcome) _raise_wrapfail(wrap_controller, "has second yield") except StopIteration: pass > return call_outcome.get_result() ../_pytest/vendored_packages/pluggy.py:253: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c1cab40> def get_result(self): if self.excinfo is None: return self.result else: ex = self.excinfo if _py3: raise ex[1].with_traceback(ex[2]) > _reraise(*ex) # noqa ../_pytest/vendored_packages/pluggy.py:279: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x7f659c1cab40> func = <bound method _MultiCall.execute of <_MultiCall 0 results, 5 meths, kwargs={'i...e_bad_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}>> def __init__(self, func): try: > self.result = func() ../_pytest/vendored_packages/pluggy.py:264: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <_MultiCall 0 results, 5 meths, kwargs={'item': <AppTestMethod 'test_range_bad_args'>, '__multicall__': <_MultiCall 0 results, 5 meths, kwargs={...}>}> def execute(self): all_kwargs = self.kwargs self.results = results = [] firstresult = self.specopts.get("firstresult") while self.hook_impls: hook_impl = self.hook_impls.pop() args = [all_kwargs[argname] for argname in hook_impl.argnames] if hook_impl.hookwrapper: return _wrapped_call(hook_impl.function(*args), self.execute) > res = hook_impl.function(*args) ../_pytest/vendored_packages/pluggy.py:596: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ item = <AppTestMethod 'test_range_bad_args'> @pytest.hookimpl(tryfirst=True) def pytest_runtest_setup(item): if isinstance(item, pytest.Function): config = item.config if get_marker(item, name='pypy_only'): if config.applevel is not None and not config.applevel.is_pypy: pytest.skip('PyPy-specific test') appclass = item.getparent(pytest.Class) if appclass is not None: from pypy.tool.pytest.objspace import gettestobjspace # Make cls.space and cls.runappdirect available in tests. spaceconfig = getattr(appclass.obj, 'spaceconfig', {}) > appclass.obj.space = gettestobjspace(**spaceconfig) conftest.py:254: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ kwds = {}, config = <rpython.config.config.Config object at 0x7f659ca02c90> key = (((True, True, True, True, False, False, ...), True, None, False, None, False, ...), False, (False, 'lltype', 'c', False, True, 'ref', ...)) def gettestobjspace(**kwds): """ helper for instantiating and caching spaces for testing. """ try: config = make_config(option, **kwds) except ConflictConfigError as e: # this exception is typically only raised if a module is not available. # in this case the test should be skipped py.test.skip(str(e)) if getattr(option, 'runappdirect', None): return TinyObjSpace() key = config.getkey() try: return _SPACECACHE[key] except KeyError: > space = maketestobjspace(config) tool/pytest/objspace.py:24: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ca02c90> def maketestobjspace(config=None): if config is None: config = make_config(option) if config.objspace.usemodules.thread: config.translation.thread = True config.objspace.extmodules = 'pypy.tool.pytest.fake_pytest' > space = make_objspace(config) tool/pytest/objspace.py:34: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ config = <rpython.config.config.Config object at 0x7f659ca02c90> def make_objspace(config): from pypy.objspace.std.objspace import StdObjSpace > return StdObjSpace(config) tool/option.py:33: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace config = <rpython.config.config.Config object at 0x7f659ca02c90> @not_rpython def __init__(self, config=None): "Basic initialization of objects." self.w_default_importlib_import = None self.fromcache = InternalSpaceCache(self).getorbuild self.threadlocals = ThreadLocals() # set recursion limit # sets all the internal descriptors if config is None: from pypy.config.pypyoption import get_pypy_config config = get_pypy_config(translating=False) self.config = config self.reverse_debugging = config.translation.reverse_debugger self.builtin_modules = {} self.reloading_modules = {} self.interned_strings = make_weak_value_dictionary(self, str, W_Root) self.actionflag = ActionFlag() # changed by the signal module self.check_signal_action = None # changed by the signal module make_finalizer_queue(W_Root, self) self._code_of_sys_exc_info = None self._builtin_functions_by_identifier = {'': None} # can be overridden to a subclass > self.initialize() interpreter/baseobjspace.py:455: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def initialize(self): """only for initializing the space Setup all the object types and implementations. """ setup_prebuilt(self) self.FrameClass = frame.build_frame(self) self.StringObjectCls = W_BytesObject self.UnicodeObjectCls = W_UnicodeObject self.IntObjectCls = W_IntObject self.FloatObjectCls = W_FloatObject # singletons self.w_None = W_NoneObject.w_None self.w_False = W_BoolObject.w_False self.w_True = W_BoolObject.w_True self.w_NotImplemented = self.wrap(special.NotImplemented()) self.w_Ellipsis = self.wrap(special.Ellipsis()) self.w_DisallowNew = self.wrap(special.DisallowNew()) # types builtin_type_classes = { W_BoolObject.typedef: W_BoolObject, W_BytearrayObject.typedef: W_BytearrayObject, W_BytesObject.typedef: W_BytesObject, W_ComplexObject.typedef: W_ComplexObject, W_DictMultiObject.typedef: W_DictMultiObject, W_FloatObject.typedef: W_FloatObject, W_IntObject.typedef: W_AbstractIntObject, W_AbstractSeqIterObject.typedef: W_AbstractSeqIterObject, W_ListObject.typedef: W_ListObject, W_MemoryView.typedef: W_MemoryView, W_NoneObject.typedef: W_NoneObject, W_ObjectObject.typedef: W_ObjectObject, W_SetObject.typedef: W_SetObject, W_FrozensetObject.typedef: W_FrozensetObject, W_SliceObject.typedef: W_SliceObject, W_TupleObject.typedef: W_TupleObject, W_TypeObject.typedef: W_TypeObject, W_UnicodeObject.typedef: W_UnicodeObject, } self.builtin_types = {} self._interplevel_classes = {} for typedef, cls in builtin_type_classes.items(): w_type = self.gettypeobject(typedef) self.builtin_types[typedef.name] = w_type setattr(self, 'w_' + typedef.name, w_type) self._interplevel_classes[w_type] = cls # The loop above sets space.w_str and space.w_bytes. # We rename 'space.w_str' to 'space.w_unicode' and # 'space.w_text'. self.w_unicode = self.w_str self.w_text = self.w_str del self.w_str self.w_long = self.w_int self.w_dict.flag_map_or_seq = 'M' from pypy.objspace.std import dictproxyobject dictproxyobject._set_flag_map_or_seq(self) self.w_list.flag_map_or_seq = 'S' self.w_tuple.flag_map_or_seq = 'S' self.builtin_types['str'] = self.w_unicode self.builtin_types['bytes'] = self.w_bytes self.builtin_types["NotImplemented"] = self.w_NotImplemented self.builtin_types["Ellipsis"] = self.w_Ellipsis # exceptions & builtins > self.make_builtins() objspace/std/objspace.py:115: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = StdObjSpace @not_rpython def make_builtins(self): "only for initializing the space." from pypy.module.exceptions.moduledef import Module w_name = self.newtext('__exceptions__') self.exceptions_module = Module(self, w_name) self.exceptions_module.install() from pypy.module.imp.moduledef import Module w_name = self.newtext('_imp') > mod = Module(self, w_name) interpreter/baseobjspace.py:634: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ self = <pypy.module.imp.moduledef.Module object at 0x7f659c291e50> space = StdObjSpace, args = (W_UnicodeObject('_imp'),) add_fork_hook = <function add_fork_hook at 0x7f659d8504d0> def __init__(self, space, *args): "NOT_RPYTHON" MixedModule.__init__(self, space, *args) from pypy.module.posix.interp_posix import add_fork_hook > from pypy.module.imp import interp_imp module/imp/moduledef.py:44: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ > from pypy.module.imp import importing module/imp/interp_imp.py:1: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ import sys, os, stat, re, platform from pypy.interpreter.module import Module, init_extra_module_attrs from pypy.interpreter.gateway import interp2app, unwrap_spec from pypy.interpreter.typedef import TypeDef, generic_new_descr from pypy.interpreter.error import OperationError, oefmt, wrap_oserror from pypy.interpreter.baseobjspace import W_Root, CannotHaveLock from pypy.interpreter.eval import Code from pypy.interpreter.pycode import PyCode > from rpython.rlib import streamio, jit module/imp/importing.py:14: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ """ # File offsets are all 'r_longlong', but a single read or write cannot # transfer more data that fits in an RPython 'int' (because that would not # fit in a single string anyway). This module needs to be careful about # where r_longlong values end up: as argument to seek() and truncate() and # return value of tell(), but not as argument to read(). import os, sys, errno from rpython.rlib.objectmodel import specialize, we_are_translated, not_rpython from rpython.rlib.rarithmetic import r_longlong, intmask > from rpython.rlib import rposix, nonconst, _rsocket_rffi as _c ../rpython/rlib/streamio.py:40: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ from rpython.rtyper.lltypesystem import rffi from rpython.rtyper.lltypesystem import lltype from rpython.rtyper.tool import rffi_platform as platform from rpython.rtyper.lltypesystem.rffi import CCHARP, CONST_CCHARP from rpython.rlib import jit from rpython.translator.tool.cbuild import ExternalCompilationInfo from rpython.translator.platform import platform as target_platform from rpython.rlib.rarithmetic import intmask, r_uint, widen import os,sys from textwrap import dedent _POSIX = os.name == "posix" _WIN32 = sys.platform == "win32" _MSVC = target_platform.name == "msvc" _MINGW = target_platform.name == "mingw32" _SOLARIS = sys.platform == "sunos5" _MACOSX = sys.platform == "darwin" _HAS_AF_PACKET = sys.platform.startswith('linux') # only Linux for now if _POSIX: includes = ('sys/types.h', 'sys/socket.h', 'sys/un.h', 'poll.h', 'sys/select.h', 'sys/types.h', 'netinet/in.h', 'netinet/tcp.h', 'unistd.h', 'fcntl.h', 'stdio.h', 'netdb.h', 'arpa/inet.h', 'stdint.h', 'errno.h', 'limits.h', 'net/if.h', ) if _HAS_AF_PACKET: includes += ('netpacket/packet.h', 'sys/ioctl.h', ) cond_includes = [('AF_NETLINK', 'linux/netlink.h')] cond_includes += [('AF_ALG', 'linux/if_alg.h')] cond_includes += [('AF_QIPCRTR', 'linux/qrtr.h')] libraries = () calling_conv = 'c' HEADER = ''.join(['#include <%s>\n' % filename for filename in includes]) COND_HEADER = ''.join(['#ifdef %s\n#include <%s>\n#endif\n' % cond_include for cond_include in cond_includes]) if _SOLARIS: libraries = libraries + ('socket', 'nsl') if _WIN32: includes = () libraries = ('ws2_32', 'Iphlpapi') calling_conv = 'win' header_lines = [ '#include <WinSock2.h>', '#include <WS2tcpip.h>', # winsock2 defines AF_UNIX, but not sockaddr_un '#undef AF_UNIX', ] if _MSVC: header_lines.extend([ '#include <Mstcpip.h>', # these types do not exist on microsoft compilers '#ifdef _WIN64', 'typedef long long ssize_t;', 'typedef unsigned long long size_t;', '#else', 'typedef int ssize_t;', 'typedef unsigned int size_t;', '#endif', 'typedef unsigned __int16 uint16_t;', 'typedef unsigned __int32 uint32_t;', ]) else: # MINGW includes = ('stdint.h',) header_lines.extend([ '''\ #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0501 #endif''', '#define SIO_RCVALL _WSAIOW(IOC_VENDOR,1)', '#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4)', '#define RCVALL_OFF 0', '#define RCVALL_ON 1', '#define RCVALL_SOCKETLEVELONLY 2', '''\ #ifndef __MINGW32__ struct tcp_keepalive { u_long onoff; u_long keepalivetime; u_long keepaliveinterval; }; #endif ''' ]) HEADER = '\n'.join(header_lines) COND_HEADER = '' constants = {} eci = ExternalCompilationInfo( post_include_bits = [HEADER, COND_HEADER], includes = includes, libraries = libraries, ) class CConfig: _compilation_info_ = eci # constants linux = platform.Defined('linux') WIN32 = platform.Defined('_WIN32') O_RDONLY = platform.DefinedConstantInteger('O_RDONLY') O_WRONLY = platform.DefinedConstantInteger('O_WRONLY') O_RDWR = platform.DefinedConstantInteger('O_RDWR') O_NONBLOCK = platform.DefinedConstantInteger('O_NONBLOCK') F_GETFL = platform.DefinedConstantInteger('F_GETFL') F_SETFL = platform.DefinedConstantInteger('F_SETFL') FIONBIO = platform.DefinedConstantInteger('FIONBIO') PIPE_BUF = platform.DefinedConstantInteger('PIPE_BUF') INVALID_SOCKET = platform.DefinedConstantInteger('INVALID_SOCKET') INET_ADDRSTRLEN = platform.DefinedConstantInteger('INET_ADDRSTRLEN') INET6_ADDRSTRLEN= platform.DefinedConstantInteger('INET6_ADDRSTRLEN') EINTR = platform.DefinedConstantInteger('EINTR') WSAEINTR = platform.DefinedConstantInteger('WSAEINTR') EINPROGRESS = platform.DefinedConstantInteger('EINPROGRESS') WSAEINPROGRESS = platform.DefinedConstantInteger('WSAEINPROGRESS') EWOULDBLOCK = platform.DefinedConstantInteger('EWOULDBLOCK') WSAEWOULDBLOCK = platform.DefinedConstantInteger('WSAEWOULDBLOCK') EAFNOSUPPORT = platform.DefinedConstantInteger('EAFNOSUPPORT') WSAEAFNOSUPPORT = platform.DefinedConstantInteger('WSAEAFNOSUPPORT') EISCONN = platform.DefinedConstantInteger('EISCONN') WSAEISCONN = platform.DefinedConstantInteger('WSAEISCONN') constant_names = ''' AF_AAL5 AF_ALG AF_APPLETALK AF_ASH AF_ATMPVC AF_ATMSVC AF_AX25 AF_BLUETOOTH AF_BRIDGE AF_CAN AD_DECnet AF_DEC AF_DECnet AF_DIVERT AF_ECONET AF_HYPERV AF_INET AF_INET6 AF_IPX AF_IRDA AF_KEY AF_LINK AF_LLC AF_NETBEUI AF_NETLINK AF_NETROM AF_PACKET AF_PPPOX AF_QIPCRTR AF_RDS AF_ROSE AF_ROUTE AF_SECURITY AF_SNA AF_SYSTEM AF_TIPC AF_UNIX AF_VSOCK AF_WANPIPE AF_X25 AF_UNSPEC AI_ADDRCONFIG AI_ALL AI_CANONNAME AI_DEFAULT AI_MASK AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE AI_V4MAPPED AI_V4MAPPED_CFG BTPROTO_HCI BTPROTO_L2CAP BTPROTO_SCO BTPROTO_RFCOMM ALG_OP_DECRYPT ALG_OP_ENCRYPT ALG_OP_SIGN ALG_OP_VERIFY ALG_SET_AEAD_ASSOCLEN ALG_SET_AEAD_AUTHSIZE ALG_SET_IV ALG_SET_KEY ALG_SET_OP ALG_SET_PUBKEY SOL_ALG HCI_DATA_DIR HCI_FILTER HCI_TIME_STAMP HV_PROTOCOL_RAW HVSOCKET_ADDRESS_FLAG_PASSTHRU HVSOCKET_CONNECTED_SUSPEND HVSOCKET_CONNECT_TIMEOUT HVSOCKET_CONNECT_TIMEOUT_MAX INADDR_ALLHOSTS_GROUP INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_MAX_LOCAL_GROUP INADDR_NONE INADDR_UNSPEC_GROUP IOCTL_VM_SOCKETS_GET_LOCAL_CID EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_BADHINTS EAI_FAIL EAI_FAMILY EAI_MAX EAI_MEMORY EAI_NODATA EAI_NONAME EAI_OVERFLOW EAI_PROTOCOL EAI_SERVICE EAI_SOCKTYPE EAI_SYSTEM IPPROTO_AH IPPROTO_BIP IPPROTO_CBT IPPROTO_DSTOPTS IPPROTO_EGP IPPROTO_EON IPPROTO_ESP IPPROTO_FRAGMENT IPPROTO_GGP IPPROTO_GRE IPPROTO_HELLO IPPROTO_HOPOPTS IPPROTO_ICLFXBM IPPROTO_ICMPV6 IPPROTO_IDP IPPROTO_IGP IPPROTO_IGMP IPPROTO_IPCOMP IPPROTO_IPIP IPPROTO_IPV4 IPPROTO_IPV6 IPPROTO_L2TP IPPROTO_MAX IPPROTO_MOBILE IPPROTO_ND IPPROTO_NONE IPPROTO_PGM IPPROTO_PIM IPPROTO_PUP IPPROTO_RDP IPPROTO_ROUTING IPPROTO_RSVP IPPROTO_MPTCP IPPROTO_ST IPPROTO_TCP IPPROTO_TP IPPROTO_UDPLITE IPPROTO_VRRP IPPROTO_XTP IPPROTO_SCTP IPV6_CHECKSUM IPV6_DONTFRAG IPV6_DSTOPTS IPV6_HOPLIMIT IPV6_HOPOPTS IPV6_JOIN_GROUP IPV6_LEAVE_GROUP IPV6_MULTICAST_HOPS IPV6_MULTICAST_IF IPV6_MULTICAST_LOOP IPV6_NEXTHOP IPV6_PATHMTU IPV6_PKTINFO IPV6_RECVDSTOPTS IPV6_RECVHOPLIMIT IPV6_RECVHOPOPTS IPV6_RECVPATHMTU IPV6_RECVPKTINFO IPV6_RECVRTHDR IPV6_RECVTCLASS IPV6_RTHDR IPV6_RTHDRDSTOPTS IPV6_RTHDR_TYPE_0 IPV6_TCLASS IPV6_UNICAST_HOPS IPV6_USE_MIN_MTU IPV6_V6ONLY IP_ADD_MEMBERSHIP IP_ADD_SOURCE_MEMBERSHIP IP_BIND_ADDRESS_NO_PORT IP_BLOCK_SOURCE IP_DEFAULT_MULTICAST_LOOP IP_DEFAULT_MULTICAST_TTL IP_DROP_MEMBERSHIP IP_DROP_SOURCE_MEMBERSHIP IP_HDRINCL IP_MAX_MEMBERSHIPS IP_MULTICAST_IF IP_MULTICAST_LOOP IP_MULTICAST_TTL IP_OPTIONS IP_PKTINFO IP_RECVDSTADDR IP_RECVOPTS IP_RECVRETOPTS IP_RECVTOS IP_RETOPTS IP_TOS IP_TRANSPARENT IP_TTL IP_UNBLOCK_SOURCE MSG_BCAST MSG_BTAG MSG_CMSG_CLOEXEC MSG_CONFIRM MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_ERRQUEUE MSG_EOR MSG_ETAG MSG_FASTOPEN MSG_MCAST MSG_MORE MSG_NOSIGNAL MSG_NOTIFICATION MSG_OOB MSG_PEEK MSG_TRUNC MSG_WAITALL NI_DGRAM NI_IDN NI_MAXHOST NI_MAXSERV NI_NAMEREQD NI_NOFQDN NI_NUMERICHOST NI_NUMERICSERV NETLINK_ARPD NETLINK_CRYPTO NETLINK_DNRTMSG NETLINK_FIREWALL NETLINK_IP6_FW NETLINK_NFLOG NETLINK_ROUTE NETLINK_ROUTE6 NETLINK_SKIP NETLINK_TAPBASE NETLINK_TCPDIAG NETLINK_USERSOCK NETLINK_W1 NETLINK_XFRM PACKET_HOST PACKET_BROADCAST PACKET_MULTICAST PACKET_OTHERHOST PACKET_OUTGOING PACKET_LOOPBACK PACKET_FASTROUTE PF_CAN PF_DIVERT PF_PACKET PF_RDS PF_SYSTEM RCVALL_IPLEVEL RCVALL_MAX RCVALL_OFF RCVALL_ON RCVALL_SOCKETLEVELONLY RDS_CANCEL_SENT_TO RDS_CMSG_RDMA_ARGS RDS_CMSG_RDMA_DEST RDS_CMSG_RDMA_MAP RDS_CMSG_RDMA_STATUS RDS_CMSG_RDMA_UPDATE RDS_CONG_MONITOR RDS_FREE_MR RDS_GET_MR RDS_GET_MR_FOR_DEST RDS_RDMA_DONTWAIT RDS_RDMA_FENCE RDS_RDMA_INVALIDATE RDS_RDMA_NOTIFY_ME RDS_RDMA_READWRITE RDS_RDMA_SILENT RDS_RDMA_USE_ONCE RDS_RECVERR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOCK_CLOEXEC SOCK_NONBLOCK SOL_SOCKET SOL_IPX SOL_AX25 SOL_ATALK SOL_NETROM SOL_ROSE SO_ACCEPTCONN SO_BINDTODEVICE SO_BINDTOIFINDEX SO_BROADCAST SO_DEBUG SO_DOMAIN SO_DONTROUTE SO_ERROR SO_EXCLUSIVEADDRUSE SO_INCOMING_CPU SO_J1939_ERRQUEUE SO_J1939_FILTER SO_J1939_PROMISC SO_J1939_SEND_PRIO SO_KEEPALIVE SO_LINGER SO_MARK SO_OOBINLINE SO_PASSCRED SO_PASSSEC SO_PEERCRED SO_PEERSEC SO_PRIORITY SO_PROTOCOL SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_RTABLE SO_SETFIB SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_TYPE SO_USELOOPBACK SO_USER_COOKIE SO_VM_SOCKETS_BUFFER_MAX_SIZE SO_VM_SOCKETS_BUFFER_MIN_SIZE SO_VM_SOCKETS_BUFFER_SIZE SIO_KEEPALIVE_VALS SIO_LOOPBACK_FAST_PATH SIO_RCVALL SYSPROTO_CONTROL TCP_CC_INFO TCP_CONGESTION TCP_CONNECTION_INFO TCP_CORK TCP_DEFER_ACCEPT TCP_FASTOPEN TCP_FASTOPEN_CONNECT TCP_FASTOPEN_KEY TCP_FASTOPEN_NO_COOKIE TCP_INFO TCP_INQ TCP_KEEPALIVE TCP_KEEPCNT TCP_KEEPIDLE TCP_KEEPINTVL TCP_LINGER2 TCP_MAXSEG TCP_MD5SIG TCP_MD5SIG_EXT TCP_NODELAY TCP_NOTSENT_LOWAT TCP_QUEUE_SEQ TCP_QUICKACK TCP_REPAIR TCP_REPAIR_OPTIONS TCP_REPAIR_QUEUE TCP_REPAIR_WINDOW TCP_SAVED_SYN TCP_SAVE_SYN TCP_SYNCNT TCP_THIN_DUPACK TCP_THIN_LINEAR_TIMEOUTS TCP_TIMESTAMP TCP_TX_DELAY TCP_ULP TCP_USER_TIMEOUT TCP_WINDOW_CLAMP TCP_ZEROCOPY_RECEIVE IPX_TYPE LOCAL_CREDS LOCAL_CREDS_PERSISTENT LOCAL_PEERCRED SCM_CREDENTIALS SCM_CREDS SCM_CREDS2 SCM_J1939_DEST_ADDR SCM_J1939_DEST_NAME SCM_J1939_ERRQUEUE SCM_J1939_PRIO SCM_RIGHTS CAN_BCM CAN_BCM_CAN_FD_FRAME CAN_BCM_RX_ANNOUNCE_RESUME CAN_BCM_RX_CHANGED CAN_BCM_RX_CHECK_DLC CAN_BCM_RX_DELETE CAN_BCM_RX_FILTER_ID CAN_BCM_RX_NO_AUTOTIMER CAN_BCM_RX_READ CAN_BCM_RX_RTR_FRAME CAN_BCM_RX_SETUP CAN_BCM_RX_STATUS CAN_BCM_RX_TIMEOUT CAN_BCM_SETTIMER CAN_BCM_STARTTIMER CAN_BCM_TX_ANNOUNCE CAN_BCM_TX_COUNTEVT CAN_BCM_TX_CP_CAN_ID CAN_BCM_TX_DELETE CAN_BCM_TX_EXPIRED CAN_BCM_TX_READ CAN_BCM_TX_RESET_MULTI_IDX CAN_BCM_TX_SEND CAN_BCM_TX_SETUP CAN_BCM_TX_STATUS CAN_EFF_FLAG CAN_EFF_MASK CAN_ERR_FLAG CAN_ERR_MASK CAN_ISOTP CAN_J1939 CAN_RAW CAN_RAW_ERR_FILTER CAN_RAW_FD_FRAMES CAN_RAW_FILTER CAN_RAW_JOIN_FILTERS CAN_RAW_LOOPBACK CAN_RAW_RECV_OWN_MSGS CAN_RTR_FLAG CAN_SFF_MASK J1939_EE_INFO_NONE J1939_EE_INFO_TX_ABORT J1939_FILTER_MAX J1939_IDLE_ADDR J1939_MAX_UNICAST_ADDR J1939_NLA_BYTES_ACKED J1939_NLA_PAD J1939_NO_ADDR J1939_NO_NAME J1939_NO_PGN J1939_PGN_ADDRESS_CLAIMED J1939_PGN_ADDRESS_COMMANDED J1939_PGN_MAX J1939_PGN_PDU1_MAX J1939_PGN_REQUEST ETH_P_ALL ETHERTYPE_ARP ETHERTYPE_IP ETHERTYPE_IPV6 ETHERTYPE_VLAN UDPLITE_RECV_CSCOV UDPLITE_SEND_CSCOV TIPC_ADDR_ID TIPC_ADDR_NAME TIPC_ADDR_NAMESEQ TIPC_CFG_SRV TIPC_CLUSTER_SCOPE TIPC_CONN_TIMEOUT TIPC_CRITICAL_IMPORTANCE TIPC_DEST_DROPPABLE TIPC_HIGH_IMPORTANCE TIPC_IMPORTANCE TIPC_LOW_IMPORTANCE TIPC_MEDIUM_IMPORTANCE TIPC_NODE_SCOPE TIPC_PUBLISHED TIPC_SRC_DROPPABLE TIPC_SUBSCR_TIMEOUT TIPC_SUB_CANCEL TIPC_SUB_PORTS TIPC_SUB_SERVICE TIPC_TOP_SRV TIPC_WAIT_FOREVER TIPC_WITHDRAWN TIPC_ZONE_SCOPE VMADDR_CID_ANY VMADDR_CID_HOST VMADDR_PORT_ANY VM_SOCKETS_INVALID_VERSION POLLIN POLLPRI POLLOUT POLLERR POLLHUP POLLNVAL POLLRDNORM POLLRDBAND POLLWRNORM POLLWEBAND POLLMSG FD_READ FD_WRITE FD_ACCEPT FD_CONNECT FD_CLOSE WSA_WAIT_TIMEOUT WSA_WAIT_FAILED INFINITE FD_CONNECT_BIT FD_CLOSE_BIT WSA_IO_PENDING WSA_IO_INCOMPLETE WSA_INVALID_HANDLE WSA_INVALID_PARAMETER WSA_NOT_ENOUGH_MEMORY WSA_OPERATION_ABORTED WSA_FLAG_OVERLAPPED WSA_FLAG_NO_HANDLE_INHERIT SIO_RCVALL SIO_KEEPALIVE_VALS SIOCGIFNAME SIOCGIFINDEX SO_DOMAIN SO_PROTOCOL SO_PEERSEC SO_PASSSEC TCP_USER_TIMEOUT TCP_CONGESTION TCP_NOTSENT_LOWAT '''.split() for name in constant_names: setattr(CConfig, name, platform.DefinedConstantInteger(name)) if _WIN32: # some SDKs define these values with an enum, #ifdef won't work for name in ('RCVALL_ON', 'RCVALL_OFF', 'RCVALL_SOCKETLEVELONLY', 'TCP_FASTOPEN'): setattr(CConfig, name, platform.ConstantInteger(name)) constant_names.append(name) constants["BDADDR_ANY"] = "00:00:00:00:00:00" constants["BDADDR_LOCAL"] = "00:00:00:FF:FF:FF" constants_w_defaults = [('SOL_IP', 0), ('SOL_TCP', 6), ('SOL_UDP', 17), ('SOMAXCONN', 5), ('IPPROTO_IP', 6), ('IPPROTO_IPV6', 41), ('IPPROTO_ICMP', 1), ('IPPROTO_TCP', 6), ('IPPROTO_UDP', 17), ('IPPROTO_RAW', 255), ('IPPORT_RESERVED', 1024), ('IPPORT_USERRESERVED', 5000), ('INADDR_ANY', 0x00000000), ('INADDR_BROADCAST', 0xffffffff), ('INADDR_LOOPBACK', 0x7F000001), ('INADDR_UNSPEC_GROUP', 0xe0000000), ('INADDR_ALLHOSTS_GROUP', 0xe0000001), ('INADDR_MAX_LOCAL_GROUP', 0xe00000ff), ('INADDR_NONE', 0xffffffff), ('SHUT_RD', 0), ('SHUT_WR', 1), ('SHUT_RDWR', 2), ('POLLIN', 1), ('POLLPRI', 2), ('POLLOUT', 4), ('POLLERR', 8), ('POLLHUP', 16), ('FD_SETSIZE', 64), ] for name, default in constants_w_defaults: setattr(CConfig, name, platform.DefinedConstantInteger(name)) # types if _MSVC: socketfd_type = lltype.Unsigned else: socketfd_type = rffi.INT_real CConfig.uint16_t = platform.SimpleType('uint16_t', rffi.USHORT) CConfig.uint32_t = platform.SimpleType('uint32_t', rffi.UINT) CConfig.size_t = platform.SimpleType('size_t', rffi.INT) CConfig.ssize_t = platform.SimpleType('ssize_t', rffi.INT) CConfig.socklen_t = platform.SimpleType('socklen_t', rffi.UINT_real) sockaddr_ptr = lltype.Ptr(lltype.ForwardReference()) addrinfo_ptr = lltype.Ptr(lltype.ForwardReference()) # struct types CConfig.sockaddr = platform.Struct('struct sockaddr', [('sa_family', rffi.INT), ('sa_data', rffi.CFixedArray(rffi.CHAR, 1)), ]) CConfig.in_addr = platform.Struct('struct in_addr', [('s_addr', rffi.UINT)]) CConfig.in6_addr = platform.Struct('struct in6_addr', [('s6_addr', rffi.CFixedArray(rffi.CHAR, 16))]) CConfig.sockaddr_in = platform.Struct('struct sockaddr_in', [('sin_family', rffi.INT), ('sin_port', rffi.USHORT), ('sin_addr', CConfig.in_addr)]) CConfig.sockaddr_in6 = platform.Struct('struct sockaddr_in6', [('sin6_family', rffi.INT), ('sin6_port', rffi.USHORT), ('sin6_flowinfo', rffi.INT), ('sin6_addr', CConfig.in6_addr), ('sin6_scope_id', rffi.INT)]) CConfig.sockaddr_un = platform.Struct('struct sockaddr_un', [('sun_family', rffi.INT), ('sun_path', rffi.CFixedArray(rffi.CHAR, 1))], ifdef='AF_UNIX') CConfig.sockaddr_nl = platform.Struct('struct sockaddr_nl', [('nl_family', rffi.INT), ('nl_pid', rffi.INT), ('nl_groups', rffi.INT)], ifdef='AF_NETLINK') CConfig.sockaddr_alg = platform.Struct('struct sockaddr_alg', [('salg_family', rffi.INT), ('salg_type', rffi.CFixedArray(rffi.CHAR, 14)), ('salg_feat', rffi.SHORT), ('salg_mask', rffi.SHORT), ('salg_name', rffi.CFixedArray(rffi.CHAR, 64)), ], ifdef='AF_ALG') CConfig.sockaddr_qrtr = platform.Struct('struct sockaddr_qrtr', [('sq_family', rffi.INT), ('sq_node', rffi.INT), ('sq_port', rffi.INT), ], ifdef='AF_ALG') CConfig.addrinfo = platform.Struct('struct addrinfo', [('ai_flags', rffi.INT), ('ai_family', rffi.INT), ('ai_socktype', rffi.INT), ('ai_protocol', rffi.INT), ('ai_addrlen', rffi.INT), ('ai_addr', sockaddr_ptr), ('ai_canonname', CCHARP), ('ai_next', addrinfo_ptr)]) CConfig.hostent = platform.Struct('struct hostent', [('h_name', CCHARP), ('h_aliases', rffi.CCHARPP), ('h_addrtype', rffi.INT), ('h_length', rffi.INT), ('h_addr_list', rffi.CCHARPP), ]) CConfig.servent = platform.Struct('struct servent', [('s_name', CCHARP), ('s_port', rffi.INT), ('s_proto', CCHARP), ]) CConfig.protoent = platform.Struct('struct protoent', [('p_proto', rffi.INT), ]) CConfig.HAVE_ACCEPT4 = platform.Has('accept4') if _POSIX: CConfig.nfds_t = platform.SimpleType('nfds_t') CConfig.pollfd = platform.Struct('struct pollfd', [('fd', socketfd_type), ('events', rffi.SHORT), ('revents', rffi.SHORT)]) CConfig.if_nameindex_s = platform.Struct('struct if_nameindex', [('if_index', rffi.UINT), ('if_name', rffi.CCHARP)]) if _HAS_AF_PACKET: CConfig.sockaddr_ll = platform.Struct('struct sockaddr_ll', [('sll_family', rffi.INT), ('sll_ifindex', rffi.INT), ('sll_protocol', rffi.INT), ('sll_pkttype', rffi.INT), ('sll_hatype', rffi.INT), ('sll_addr', rffi.CFixedArray(rffi.UCHAR, 8)), ('sll_halen', rffi.INT)]) CConfig.ifreq = platform.Struct('struct ifreq', [('ifr_ifindex', rffi.INT), ('ifr_name', rffi.CFixedArray(rffi.CHAR, 8))]) else: CConfig.if_nameindex_s = rffi.CStruct('if_nameindex', ('if_index', rffi.UINT), ('if_name', rffi.CCHARP)) includes = [] separate_module_sources = [] post_include_bits = [] # insert handler for sendmsg / recvmsg here HAVE_SENDMSG = bool(_POSIX) if HAVE_SENDMSG: includes += ['stddef.h', 'sys/socket.h', 'unistd.h', 'string.h', 'stdlib.h', 'errno.h', 'limits.h', 'stdio.h', 'sys/types.h', 'netinet/in.h', 'arpa/inet.h'] separate_module_sources += [''' // special defines for returning from recvmsg #define BAD_MSG_SIZE_GIVEN -10000 #define BAD_ANC_SIZE_GIVEN -10001 #define MAL_ANC -10002 // special defines for returning from sendmsg #define MUL_MSGS_NOT_SUP -1000 #define ANC_DATA_TOO_LARGE -1001 #define ANC_DATA_TOO_LARGEX -1002 #if INT_MAX > 0x7fffffff #define SOCKLEN_T_LIMIT 0x7fffffff #else #define SOCKLEN_T_LIMIT INT_MAX #endif // ######################################################################### // Recvmsg implementation and associated functions // Taken from CPython. Determines the minimum memory space required for the ancillary data. #ifdef CMSG_SPACE static int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space) { size_t cmsg_offset; static const size_t cmsg_len_end = (offsetof(struct cmsghdr, cmsg_len) + sizeof(cmsgh->cmsg_len)); /* Note that POSIX allows msg_controllen to be of signed type. */ if (cmsgh == NULL || msg->msg_control == NULL) return 0; /* Note that POSIX allows msg_controllen to be of a signed type. This is annoying under OS X as it's unsigned there and so it triggers a tautological comparison warning under Clang when compared against 0. Since the check is valid on other platforms, silence the warning under Clang. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wtautological-compare" #endif #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wtype-limits" #endif if (msg->msg_controllen < 0) return 0; #if defined(__GNUC__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ > 5))) #pragma GCC diagnostic pop #endif #ifdef __clang__ #pragma clang diagnostic pop #endif if (space < cmsg_len_end) space = cmsg_len_end; cmsg_offset = (char *)cmsgh - (char *)msg->msg_control; return (cmsg_offset <= (size_t)-1 - space && cmsg_offset + space <= msg->msg_controllen); } #endif // Taken from CPython. #ifdef CMSG_LEN /* If pointer CMSG_DATA(cmsgh) is in buffer msg->msg_control, set *space to number of bytes following it in the buffer and return true; otherwise, return false. Assumes cmsgh, msg->msg_control and msg->msg_controllen are valid. */ static int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space) { size_t data_offset; char *data_ptr; if ((data_ptr = (char *)CMSG_DATA(cmsgh)) == NULL) return 0; data_offset = data_ptr - (char *)msg->msg_control; if (data_offset > msg->msg_controllen) return 0; *space = msg->msg_controllen - data_offset; return 1; } // Taken from CPython. /* If cmsgh is invalid or not contained in the buffer pointed to by msg->msg_control, return -1. If cmsgh is valid and its associated data is entirely contained in the buffer, set *data_len to the length of the associated data and return 0. If only part of the associated data is contained in the buffer but cmsgh is otherwise valid, set *data_len to the length contained in the buffer and return 1. */ static int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len) { size_t space, cmsg_data_len; if (!cmsg_min_space(msg, cmsgh, CMSG_LEN(0)) || cmsgh->cmsg_len < CMSG_LEN(0)) return -1; cmsg_data_len = cmsgh->cmsg_len - CMSG_LEN(0); if (!get_cmsg_data_space(msg, cmsgh, &space)) return -1; if (space >= cmsg_data_len) { *data_len = cmsg_data_len; return 0; } *data_len = space; return 1; } #endif /* CMSG_LEN */ /* Structure meant to hold the information received after a recvmsg is performed. Essentially it holds: the address, the message, the ancillary data and the return flags. I use this structure for 2 main reasons: - keep things ordered - some of the ancillary parameters need to be int not long (rffi SignedP is actually long*), therefore I cannot use the parameters directly */ struct recvmsg_info { struct sockaddr* address; // address fields socklen_t addrlen; int size_of_ancillary; // ancillary fields int* levels; int* types; char** file_descr; int* descr_per_ancillary; int retflag; // return flag field }; /* Wrapper function over recvmsg. Since it returns a lot of data, in a structure that is hard to parse in rffi, it was implemented in C. All the parameters, save the socket fd, message_size, ancillary_size will be malloc'd and/or modified. */ RPY_EXTERN int recvmsg_implementation( int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* retflag) { struct sockaddr* recvd_address; socklen_t recvd_addrlen; struct msghdr msg = {0}; void *controlbuf = NULL; struct cmsghdr *cmsgh; int cmsg_status; struct recvmsg_info* retinfo; int error_flag = 0; // variable to be set in case of special errors. int cmsgdatalen = 0; size_t i; // variables that are set to 1, if the message charp has been allocated // and if the ancillary variables have been allocated. To be used in case of failure. int iov_alloc = 0; int anc_alloc = 0; retinfo = (struct recvmsg_info*) malloc(sizeof(struct recvmsg_info)); if (ancillary_size > SOCKLEN_T_LIMIT){ error_flag = BAD_ANC_SIZE_GIVEN; goto fail; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0) { iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); for (i=0; i < no_of_messages; i++) { iovs[i].iov_base = messages[i]; iovs[i].iov_len = message_lengths[i]; } } // Setup the ancillary buffer memory controlbuf = malloc(ancillary_size); // Setup the recv address memory recvd_addrlen = sizeof(struct sockaddr_storage); recvd_address = (struct sockaddr*) malloc(recvd_addrlen); memset(recvd_address, 0,recvd_addrlen); // Setup the msghdr struct msg.msg_name = recvd_address; msg.msg_namelen = recvd_addrlen; msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; msg.msg_control = controlbuf; msg.msg_controllen = ancillary_size; // Link my structure to the msghdr fields retinfo->address = msg.msg_name; iov_alloc = 1; ssize_t bytes_recvd = 0; bytes_recvd = recvmsg(socket_fd, &msg, flags); if (bytes_recvd < 0){ goto fail; } retinfo->addrlen = (socklen_t) msg.msg_namelen; // Count the ancillary items & allocate the memory int anc_counter = 0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { anc_counter++; } retinfo->size_of_ancillary = anc_counter; retinfo->file_descr = (char**) malloc (anc_counter * sizeof(char*)); retinfo->levels = (int*) malloc(anc_counter * sizeof(int)); retinfo->types = (int*) malloc(anc_counter * sizeof(int)); retinfo->descr_per_ancillary = (int*) malloc(anc_counter * sizeof(int)); anc_alloc = 1; // Extract the ancillary items i=0; for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t local_size = 0; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &local_size); if (cmsg_status !=0 ){ error_flag = MAL_ANC; goto err_closefds; } retinfo->file_descr[i] = (char*) malloc(local_size); memcpy(retinfo->file_descr[i], CMSG_DATA(cmsgh), local_size); retinfo->levels[i] = cmsgh->cmsg_level; retinfo->types[i] = cmsgh->cmsg_type; retinfo->descr_per_ancillary[i] =local_size; i++; } retinfo->retflag = msg.msg_flags; // Set the parameters of address memcpy(address,retinfo->address,retinfo->addrlen); *addrlen = retinfo->addrlen; // Set the parameters of message size_of_ancillary[0] = retinfo->size_of_ancillary; // Set the parameters of ancillary *levels = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *types = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); *descr_per_ancillary = (long*) malloc (sizeof(long) * retinfo->size_of_ancillary); int counter = 0; for (i=0; i < retinfo->size_of_ancillary; i++){ counter += retinfo->descr_per_ancillary[i]; // Convert the int* to long* levels[0][i] = (long) retinfo->levels[i]; types[0][i] = (long) retinfo->types[i]; descr_per_ancillary[0][i] = (long) retinfo->descr_per_ancillary[i]; } *file_descr = (char*) malloc (sizeof(char) * counter); memset(*file_descr, 0, sizeof(char) * counter); counter = 0; for (i=0; i<retinfo->size_of_ancillary; i++){ memcpy(*file_descr+counter,retinfo->file_descr[i], retinfo->descr_per_ancillary[i]); counter += retinfo->descr_per_ancillary[i]; } // Set the retflag retflag[0] = retinfo->retflag; // Free the memory free(retinfo->address); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); for (i = 0; i < retinfo->size_of_ancillary; i++) free(retinfo->file_descr[i]); free(retinfo->file_descr); free(retinfo); free(controlbuf); if (iovs != NULL) free(iovs); return bytes_recvd; fail: if (anc_alloc){ free(retinfo->file_descr); free(retinfo->levels); free(retinfo->types); free(retinfo->descr_per_ancillary); free(retinfo->address); free(retinfo); free(controlbuf); }else{ if (iov_alloc){ free(retinfo->address); free(controlbuf); free(retinfo); } } if (iovs != NULL) free(iovs); if (error_flag==0) error_flag = -1; return error_flag; err_closefds: // Special case for UNIX sockets. In case file descriptors are received, they need to be closed. // Taken from CPython #ifdef SCM_RIGHTS /* Close all descriptors coming from SCM_RIGHTS, so they don't leak. */ for (cmsgh = ((msg.msg_controllen > 0) ? CMSG_FIRSTHDR(&msg) : NULL); cmsgh != NULL; cmsgh = CMSG_NXTHDR(&msg, cmsgh)) { size_t dataleng; cmsg_status = get_cmsg_data_len(&msg, cmsgh, &dataleng); cmsgdatalen = (int) dataleng; if (cmsg_status < 0) break; if (cmsgh->cmsg_level == SOL_SOCKET && cmsgh->cmsg_type == SCM_RIGHTS) { size_t numfds; int *fdp; numfds = cmsgdatalen / sizeof(int); fdp = (int *)CMSG_DATA(cmsgh); while (numfds-- > 0) close(*fdp++); } if (cmsg_status != 0) break; } #endif /* SCM_RIGHTS */ goto fail; } // ########################################################################## // Sendmsg implementation and associated functions #ifdef CMSG_LEN static int get_CMSG_LEN(size_t length, size_t *result) { size_t tmp; if (length > (SOCKLEN_T_LIMIT - CMSG_LEN(0))) return 0; tmp = CMSG_LEN(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif #ifdef CMSG_SPACE /* If length is in range, set *result to CMSG_SPACE(length) and return true; otherwise, return false. */ static int get_CMSG_SPACE(size_t length, size_t *result) { size_t tmp; /* Use CMSG_SPACE(1) here in order to take account of the padding necessary before *and* after the data. */ if (length > (SOCKLEN_T_LIMIT - CMSG_SPACE(1))) return 0; tmp = CMSG_SPACE(length); if ((tmp > SOCKLEN_T_LIMIT) || (tmp < length)) return 0; *result = tmp; return 1; } #endif /* sendmsg_implementation is a wrapper over sendmsg of the API. It was inspired from the way CPython did their implementation of this. The main reason that it was written in C, is the struct msghdr, which contains the ancillary data in a linked list of cmsghdr structures. It was simpler to use it in C, and then push the simpler types of data via rffi. */ RPY_EXTERN int sendmsg_implementation (int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag ) { struct msghdr msg = {0}; struct cmsghdr *cmsg; void* controlbuf = NULL; int retval; size_t i; // Prepare the msghdr structure for the send: // Add the address if (address != NULL) { msg.msg_name = address; msg.msg_namelen = addrlen; } // Add the message struct iovec *iovs = NULL; if (no_of_messages > 0){ iovs = (struct iovec*) malloc(no_of_messages * sizeof(struct iovec)); memset(iovs, 0, no_of_messages * sizeof(struct iovec)); msg.msg_iov = iovs; msg.msg_iovlen = no_of_messages; for (i=0; i < no_of_messages; i++){ iovs[i].iov_base = messages[i]; iovs[i].iov_len = length_of_messages[i]; } } // Add the ancillary #ifndef CMSG_SPACE if (control_length > 1){ free(iovs); return MUL_MSGS_NOT_SUP; } #endif if (control_length > 0){ //compute the total size of the ancillary //getting the exact amount of space can be tricky and os dependent. size_t total_size_of_ancillary = 0; size_t space; size_t controllen = 0, controllen_last = 0; for (i = 0; i< control_length; i++){ total_size_of_ancillary = no_of_fds[i]; #ifdef CMSG_SPACE if (!get_CMSG_SPACE(total_size_of_ancillary, &space)) { #else if (!get_CMSG_LEN(total_size_of_ancillary, &space)) { #endif if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGE; } controllen +=space; if ((controllen > SOCKLEN_T_LIMIT) || (controllen < controllen_last)) { if (iovs != NULL) free(iovs); return ANC_DATA_TOO_LARGEX; } controllen_last = controllen; } controlbuf = malloc(controllen); msg.msg_control = controlbuf; msg.msg_controllen = controllen; // memset controlbuf to 0 to avoid trash in the ancillary memset(controlbuf, 0, controllen); cmsg = NULL; for (i = 0; i < control_length; i++) { cmsg = (i == 0) ? CMSG_FIRSTHDR(&msg) : CMSG_NXTHDR(&msg, cmsg); cmsg->cmsg_level = (int) levels[i]; cmsg->cmsg_type = (int) types[i]; cmsg->cmsg_len = CMSG_LEN(sizeof(char) * no_of_fds[i]); memcpy(CMSG_DATA(cmsg), file_descriptors[i], sizeof(char) * no_of_fds[i]); } } // Add the flags msg.msg_flags = flag; // Send the data retval = sendmsg(socket, &msg, flag); // free everything that was allocated here, and we would not need in rsocket if (iovs != NULL) free(iovs); if (controlbuf !=NULL) free(controlbuf); return retval; } // ############################################################################ // Wrappers for CMSG_SPACE and CMSG_LEN /* These 2 functions are wrappers over sys/socket.h's CMSG_SPACE and CMSG_LEN. They are identical to CPython's. */ #ifdef CMSG_SPACE RPY_EXTERN size_t CMSG_SPACE_wrapper(size_t desired_space){ size_t result; if (!get_CMSG_SPACE(desired_space, &result)){ return 0; } return result; } #endif #ifdef CMSG_LEN RPY_EXTERN size_t CMSG_LEN_wrapper(size_t desired_len){ size_t result; if (!get_CMSG_LEN(desired_len, &result)){ return 0; } return result; } #endif // ########################################################################### // Extra functions that I needed /* This function is used to memcpy from a char* at an offset. Could not get rffi.c_memcpy to do it at an offset, so I made my own. */ RPY_EXTERN int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size){ *stringto = memcpy(*stringto, stringfrom + offset, size); return 0; } /* These functions free memory that was allocated in C (sendmsg or recvmsg) was used in rsocket and now needs cleanup */ RPY_EXTERN int free_pointer_to_signedp(long** ptrtofree){ free(*ptrtofree); return 0; } RPY_EXTERN int free_ptr_to_charp(char** ptrtofree){ free(*ptrtofree); return 0; } ''',] post_include_bits +=[ "RPY_EXTERN " "int sendmsg_implementation(int socket, struct sockaddr* address, socklen_t addrlen, long* length_of_messages, char** messages, int no_of_messages, long* levels, long* types, char** file_descriptors, long* no_of_fds, int control_length, int flag );\n" "RPY_EXTERN " "int recvmsg_implementation(int socket_fd, int ancillary_size, int flags, struct sockaddr* address, socklen_t* addrlen, int* message_lengths, char** messages, int no_of_messages, long* size_of_ancillary, long** levels, long** types, char** file_descr, long** descr_per_ancillary, long* flag);\n" "static " "int cmsg_min_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t space);\n" "static " "int get_cmsg_data_space(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *space);\n" "static " "int get_cmsg_data_len(struct msghdr *msg, struct cmsghdr *cmsgh, size_t *data_len);\n" "static " "int get_CMSG_LEN(size_t length, size_t *result);\n" "static " "int get_CMSG_SPACE(size_t length, size_t *result);\n" "RPY_EXTERN " "size_t CMSG_LEN_wrapper(size_t desired_len);\n" "RPY_EXTERN " "size_t CMSG_SPACE_wrapper(size_t desired_space);\n" "RPY_EXTERN " "int memcpy_from_CCHARP_at_offset_and_size(char* stringfrom, char** stringto, int offset, int size);\n" "RPY_EXTERN " "int free_pointer_to_signedp(long** ptrtofree);\n" "RPY_EXTERN " "int free_ptr_to_charp(char** ptrtofree);\n" ] if _WIN32: CConfig.WSAEVENT = platform.SimpleType('WSAEVENT', rffi.VOIDP) CConfig.WSANETWORKEVENTS = platform.Struct( 'struct _WSANETWORKEVENTS', [('lNetworkEvents', rffi.LONG), ('iErrorCode', rffi.CFixedArray(rffi.INT, 10)), #FD_MAX_EVENTS ]) CConfig.WSAPROTOCOL_INFO = platform.Struct( 'WSAPROTOCOL_INFOA', []) # Struct is just passed between functions CConfig.FROM_PROTOCOL_INFO = platform.DefinedConstantInteger( 'FROM_PROTOCOL_INFO') post_include_bits +=[dedent("""\ struct if_nameindex { unsigned int if_index; char * if_name; }; RPY_EXTERN struct if_nameindex * if_nameindex(void); RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr); """)] separate_module_sources += [dedent("""\ #include <Iphlpapi.h> #include <stdlib.h> RPY_EXTERN struct if_nameindex * if_nameindex(void) { PMIB_IF_TABLE2 tbl; int ret; if (GetIfTable2Ex(MibIfTableRaw, &tbl) != NO_ERROR) { return NULL; } size_t memsize = sizeof(struct if_nameindex) * (tbl->NumEntries + 1); struct if_nameindex *out = malloc(memsize); if (out == NULL) { return NULL; } ULONG i = 0; for (i; i < tbl->NumEntries; i++) { MIB_IF_ROW2 r = tbl->Table[i]; WCHAR buf[NDIS_IF_MAX_STRING_SIZE + 1]; if ((ret = ConvertInterfaceLuidToNameW(&r.InterfaceLuid, buf, NDIS_IF_MAX_STRING_SIZE))) { FreeMibTable(tbl); for (ULONG j=0; j<i; j++) { free(out[j].if_name); } free(out); return NULL; } /* convert from wchar_t to char */ size_t origsize = wcslen(buf) + 1; size_t newsize = origsize * 2 + 2; size_t convertedChars = 0; out[i].if_name = malloc(newsize); out[i].if_name[0] = '\\0'; wcstombs_s(&convertedChars, out[i].if_name, newsize, buf, newsize - 1); out[i].if_index = r.InterfaceIndex; } out[i].if_name = NULL; out[i].if_index = 0; return out; } RPY_EXTERN void if_freenameindex(struct if_nameindex *ptr) { if (ptr == NULL) return; int index = 0; while (1) { if (ptr[index].if_name == NULL) break; free(ptr[index].if_name); index += 1; } free(ptr); }""")] compilation_info = eci.merge(ExternalCompilationInfo( includes=includes, separate_module_sources=separate_module_sources, post_include_bits=post_include_bits, )) CConfig.timeval = platform.Struct('struct timeval', [('tv_sec', rffi.LONG), ('tv_usec', rffi.LONG)]) fd_set = rffi.COpaquePtr('fd_set', compilation_info=eci) if _WIN32: CConfig.WSAData = platform.Struct('struct WSAData', [('wVersion', rffi.USHORT), ('wHighVersion', rffi.USHORT), ('szDescription', rffi.CFixedArray(lltype.Char, 1)), # (WSADESCRIPTION_LEN+1) ('szSystemStatus', rffi.CFixedArray(lltype.Char, 1)), # (WSASYS_STATUS_LEN+1) ('iMaxSockets', rffi.USHORT), ('iMaxUdpDg', rffi.USHORT), ('lpVendorInfo', CCHARP)]) CConfig.tcp_keepalive = platform.Struct( 'struct tcp_keepalive', [('onoff', rffi.ULONG), ('keepalivetime', rffi.ULONG), ('keepaliveinterval', rffi.ULONG)]) CConfig.GUID = platform.Struct( 'struct _GUID', [('Data1', rffi.UINT), ('Data2', rffi.UINT), ('Data3', rffi.UINT), ('Data4', rffi.CFixedArray(rffi.UCHAR, 8)) ]) CConfig.WSAPROTOCOLCHAIN = platform.Struct( 'struct _WSAPROTOCOLCHAIN', [('ChainLen', rffi.INT), ('ChainEntries', rffi.CFixedArr Output exceeded 6164480 bytes, remaining output has been truncated program finished with exit code 1 elapsedTime=4137.922104