#include #include "internal/import.h" #include "pythread.h" #include #include #include /********************************************************* * Embedded interpreter tests that need a custom exe * * Executed via 'EmbeddingTests' in Lib/test/test_capi.py *********************************************************/ static void _testembed_Py_Initialize(void) { /* HACK: the "./" at front avoids a search along the PATH in Modules/getpath.c */ Py_SetProgramName(L"./_testembed"); Py_Initialize(); } /***************************************************** * Test repeated initialisation and subinterpreters *****************************************************/ static void print_subinterp(void) { /* Output information about the interpreter in the format expected in Lib/test/test_capi.py (test_subinterps). */ PyThreadState *ts = PyThreadState_Get(); PyInterpreterState *interp = ts->interp; int64_t id = PyInterpreterState_GetID(interp); printf("interp %" PRId64 " <0x%" PRIXPTR ">, thread state <0x%" PRIXPTR ">: ", id, (uintptr_t)interp, (uintptr_t)ts); fflush(stdout); PyRun_SimpleString( "import sys;" "print('id(modules) =', id(sys.modules));" "sys.stdout.flush()" ); } static int test_repeated_init_and_subinterpreters(void) { PyThreadState *mainstate, *substate; PyGILState_STATE gilstate; int i, j; for (i=0; i<15; i++) { printf("--- Pass %d ---\n", i); _testembed_Py_Initialize(); mainstate = PyThreadState_Get(); PyEval_InitThreads(); PyEval_ReleaseThread(mainstate); gilstate = PyGILState_Ensure(); print_subinterp(); PyThreadState_Swap(NULL); for (j=0; j<3; j++) { substate = Py_NewInterpreter(); print_subinterp(); Py_EndInterpreter(substate); } PyThreadState_Swap(mainstate); print_subinterp(); PyGILState_Release(gilstate); PyEval_RestoreThread(mainstate); Py_Finalize(); } return 0; } /***************************************************** * Test forcing a particular IO encoding *****************************************************/ static void check_stdio_details(const char *encoding, const char * errors) { /* Output info for the test case to check */ if (encoding) { printf("Expected encoding: %s\n", encoding); } else { printf("Expected encoding: default\n"); } if (errors) { printf("Expected errors: %s\n", errors); } else { printf("Expected errors: default\n"); } fflush(stdout); /* Force the given IO encoding */ Py_SetStandardStreamEncoding(encoding, errors); _testembed_Py_Initialize(); PyRun_SimpleString( "import sys;" "print('stdin: {0.encoding}:{0.errors}'.format(sys.stdin));" "print('stdout: {0.encoding}:{0.errors}'.format(sys.stdout));" "print('stderr: {0.encoding}:{0.errors}'.format(sys.stderr));" "sys.stdout.flush()" ); Py_Finalize(); } static int test_forced_io_encoding(void) { /* Check various combinations */ printf("--- Use defaults ---\n"); check_stdio_details(NULL, NULL); printf("--- Set errors only ---\n"); check_stdio_details(NULL, "ignore"); printf("--- Set encoding only ---\n"); check_stdio_details("latin-1", NULL); printf("--- Set encoding and errors ---\n"); check_stdio_details("latin-1", "replace"); /* Check calling after initialization fails */ Py_Initialize(); if (Py_SetStandardStreamEncoding(NULL, NULL) == 0) { printf("Unexpected success calling Py_SetStandardStreamEncoding"); } Py_Finalize(); return 0; } /********************************************************* * Test parts of the C-API that work before initialization *********************************************************/ /* The pre-initialization tests tend to break by segfaulting, so explicitly * flushed progress messages make the broken API easier to find when they fail. */ #define _Py_EMBED_PREINIT_CHECK(msg) \ do {printf(msg); fflush(stdout);} while (0); static int test_pre_initialization_api(void) { /* Leading "./" ensures getpath.c can still find the standard library */ _Py_EMBED_PREINIT_CHECK("Checking Py_DecodeLocale\n"); wchar_t *program = Py_DecodeLocale("./spam", NULL); if (program == NULL) { fprintf(stderr, "Fatal error: cannot decode program name\n"); return 1; } _Py_EMBED_PREINIT_CHECK("Checking Py_SetProgramName\n"); Py_SetProgramName(program); _Py_EMBED_PREINIT_CHECK("Initializing interpreter\n"); Py_Initialize(); _Py_EMBED_PREINIT_CHECK("Check sys module contents\n"); PyRun_SimpleString("import sys; " "print('sys.executable:', sys.executable)"); _Py_EMBED_PREINIT_CHECK("Finalizing interpreter\n"); Py_Finalize(); _Py_EMBED_PREINIT_CHECK("Freeing memory allocated by Py_DecodeLocale\n"); PyMem_RawFree(program); return 0; } /* bpo-33042: Ensure embedding apps can predefine sys module options */ static int test_pre_initialization_sys_options(void) { /* We allocate a couple of the options dynamically, and then delete * them before calling Py_Initialize. This ensures the interpreter isn't * relying on the caller to keep the passed in strings alive. */ const wchar_t *static_warnoption = L"once"; const wchar_t *static_xoption = L"also_not_an_option=2"; size_t warnoption_len = wcslen(static_warnoption); size_t xoption_len = wcslen(static_xoption); wchar_t *dynamic_once_warnoption = \ (wchar_t *) calloc(warnoption_len+1, sizeof(wchar_t)); wchar_t *dynamic_xoption = \ (wchar_t *) calloc(xoption_len+1, sizeof(wchar_t)); wcsncpy(dynamic_once_warnoption, static_warnoption, warnoption_len+1); wcsncpy(dynamic_xoption, static_xoption, xoption_len+1); _Py_EMBED_PREINIT_CHECK("Checking PySys_AddWarnOption\n"); PySys_AddWarnOption(L"default"); _Py_EMBED_PREINIT_CHECK("Checking PySys_ResetWarnOptions\n"); PySys_ResetWarnOptions(); _Py_EMBED_PREINIT_CHECK("Checking PySys_AddWarnOption linked list\n"); PySys_AddWarnOption(dynamic_once_warnoption); PySys_AddWarnOption(L"module"); PySys_AddWarnOption(L"default"); _Py_EMBED_PREINIT_CHECK("Checking PySys_AddXOption\n"); PySys_AddXOption(L"not_an_option=1"); PySys_AddXOption(dynamic_xoption); /* Delete the dynamic options early */ free(dynamic_once_warnoption); dynamic_once_warnoption = NULL; free(dynamic_xoption); dynamic_xoption = NULL; _Py_EMBED_PREINIT_CHECK("Initializing interpreter\n"); _testembed_Py_Initialize(); _Py_EMBED_PREINIT_CHECK("Check sys module contents\n"); PyRun_SimpleString("import sys; " "print('sys.warnoptions:', sys.warnoptions); " "print('sys._xoptions:', sys._xoptions); " "warnings = sys.modules['warnings']; " "latest_filters = [f[0] for f in warnings.filters[:3]]; " "print('warnings.filters[:3]:', latest_filters)"); _Py_EMBED_PREINIT_CHECK("Finalizing interpreter\n"); Py_Finalize(); return 0; } /* bpo-20891: Avoid race condition when initialising the GIL */ static void bpo20891_thread(void *lockp) { PyThread_type_lock lock = *((PyThread_type_lock*)lockp); PyGILState_STATE state = PyGILState_Ensure(); if (!PyGILState_Check()) { fprintf(stderr, "PyGILState_Check failed!"); abort(); } PyGILState_Release(state); PyThread_release_lock(lock); PyThread_exit_thread(); } static int test_bpo20891(void) { /* bpo-20891: Calling PyGILState_Ensure in a non-Python thread before calling PyEval_InitThreads() must not crash. PyGILState_Ensure() must call PyEval_InitThreads() for us in this case. */ PyThread_type_lock lock = PyThread_allocate_lock(); if (!lock) { fprintf(stderr, "PyThread_allocate_lock failed!"); return 1; } _testembed_Py_Initialize(); unsigned long thrd = PyThread_start_new_thread(bpo20891_thread, &lock); if (thrd == PYTHREAD_INVALID_THREAD_ID) { fprintf(stderr, "PyThread_start_new_thread failed!"); return 1; } PyThread_acquire_lock(lock, WAIT_LOCK); Py_BEGIN_ALLOW_THREADS /* wait until the thread exit */ PyThread_acquire_lock(lock, WAIT_LOCK); Py_END_ALLOW_THREADS PyThread_free_lock(lock); return 0; } static int test_initialize_twice(void) { _testembed_Py_Initialize(); /* bpo-33932: Calling Py_Initialize() twice should do nothing * (and not crash!). */ Py_Initialize(); Py_Finalize(); return 0; } static int test_initialize_pymain(void) { wchar_t *argv[] = {L"PYTHON", L"-c", L"import sys; print(f'Py_Main() after Py_Initialize: sys.argv={sys.argv}')", L"arg2"}; _testembed_Py_Initialize(); /* bpo-34008: Calling Py_Main() after Py_Initialize() must not crash */ Py_Main(Py_ARRAY_LENGTH(argv), argv); Py_Finalize(); return 0; } static int dump_config_impl(void) { PyObject *config = NULL; PyObject *dict = NULL; config = PyDict_New(); if (config == NULL) { goto error; } /* global config */ dict = _Py_GetGlobalVariablesAsDict(); if (dict == NULL) { goto error; } if (PyDict_SetItemString(config, "global_config", dict) < 0) { goto error; } Py_CLEAR(dict); /* core config */ PyInterpreterState *interp = PyThreadState_Get()->interp; const _PyCoreConfig *core_config = &interp->core_config; dict = _PyCoreConfig_AsDict(core_config); if (dict == NULL) { goto error; } if (PyDict_SetItemString(config, "core_config", dict) < 0) { goto error; } Py_CLEAR(dict); /* main config */ const _PyMainInterpreterConfig *main_config = &interp->config; dict = _PyMainInterpreterConfig_AsDict(main_config); if (dict == NULL) { goto error; } if (PyDict_SetItemString(config, "main_config", dict) < 0) { goto error; } Py_CLEAR(dict); PyObject *json = PyImport_ImportModule("json"); PyObject *res = PyObject_CallMethod(json, "dumps", "O", config); Py_DECREF(json); Py_CLEAR(config); if (res == NULL) { goto error; } PySys_FormatStdout("%S\n", res); Py_DECREF(res); return 0; error: Py_XDECREF(config); Py_XDECREF(dict); return -1; } static void dump_config(void) { if (dump_config_impl() < 0) { fprintf(stderr, "failed to dump the configuration:\n"); PyErr_Print(); } } static int test_init_default_config(void) { _testembed_Py_Initialize(); dump_config(); Py_Finalize(); return 0; } static int test_init_global_config(void) { /* FIXME: test Py_IgnoreEnvironmentFlag */ putenv("PYTHONUTF8=0"); Py_UTF8Mode = 1; /* Test initialization from global configuration variables (Py_xxx) */ Py_SetProgramName(L"./globalvar"); /* Py_IsolatedFlag is not tested */ Py_NoSiteFlag = 1; Py_BytesWarningFlag = 1; putenv("PYTHONINSPECT="); Py_InspectFlag = 1; putenv("PYTHONOPTIMIZE=0"); Py_InteractiveFlag = 1; putenv("PYTHONDEBUG=0"); Py_OptimizeFlag = 2; /* Py_DebugFlag is not tested */ putenv("PYTHONDONTWRITEBYTECODE="); Py_DontWriteBytecodeFlag = 1; putenv("PYTHONVERBOSE=0"); Py_VerboseFlag = 1; Py_QuietFlag = 1; Py_NoUserSiteDirectory = 1; putenv("PYTHONUNBUFFERED="); Py_UnbufferedStdioFlag = 1; Py_FrozenFlag = 1; /* FIXME: test Py_LegacyWindowsFSEncodingFlag */ /* FIXME: test Py_LegacyWindowsStdioFlag */ Py_Initialize(); dump_config(); Py_Finalize(); return 0; } static int test_init_from_config(void) { /* Test _Py_InitializeFromConfig() */ _PyCoreConfig config = _PyCoreConfig_INIT; config.install_signal_handlers = 0; /* FIXME: test ignore_environment */ putenv("PYTHONHASHSEED=42"); config.use_hash_seed = 1; config.hash_seed = 123; putenv("PYTHONMALLOC=malloc"); config.allocator = "malloc_debug"; /* dev_mode=1 is tested in test_init_dev_mode() */ putenv("PYTHONFAULTHANDLER="); config.faulthandler = 1; putenv("PYTHONTRACEMALLOC=0"); config.tracemalloc = 2; putenv("PYTHONPROFILEIMPORTTIME=0"); config.import_time = 1; config.show_ref_count = 1; config.show_alloc_count = 1; /* FIXME: test dump_refs: bpo-34223 */ putenv("PYTHONMALLOCSTATS=0"); config.malloc_stats = 1; /* FIXME: test coerce_c_locale and coerce_c_locale_warn */ putenv("PYTHONUTF8=0"); Py_UTF8Mode = 0; config.utf8_mode = 1; Py_SetProgramName(L"./globalvar"); config.program_name = L"./conf_program_name"; static wchar_t* argv[2] = { L"-c", L"pass", }; config.argc = Py_ARRAY_LENGTH(argv); config.argv = argv; config.program = L"conf_program"; static wchar_t* xoptions[3] = { L"core_xoption1=3", L"core_xoption2=", L"core_xoption3", }; config.nxoption = Py_ARRAY_LENGTH(xoptions); config.xoptions = xoptions; static wchar_t* warnoptions[2] = { L"default", L"error::ResourceWarning", }; config.nwarnoption = Py_ARRAY_LENGTH(warnoptions); config.warnoptions = warnoptions; /* FIXME: test module_search_path_env */ /* FIXME: test home */ /* FIXME: test path config: module_search_path .. dll_path */ _PyInitError err = _Py_InitializeFromConfig(&config); /* Don't call _PyCoreConfig_Clear() since all strings are static */ if (_Py_INIT_FAILED(err)) { _Py_FatalInitError(err); } dump_config(); Py_Finalize(); return 0; } static void test_init_env_putenvs(void) { putenv("PYTHONHASHSEED=42"); putenv("PYTHONMALLOC=malloc_debug"); putenv("PYTHONTRACEMALLOC=2"); putenv("PYTHONPROFILEIMPORTTIME=1"); putenv("PYTHONMALLOCSTATS=1"); putenv("PYTHONUTF8=1"); putenv("PYTHONVERBOSE=1"); putenv("PYTHONINSPECT=1"); putenv("PYTHONOPTIMIZE=2"); putenv("PYTHONDONTWRITEBYTECODE=1"); putenv("PYTHONUNBUFFERED=1"); putenv("PYTHONNOUSERSITE=1"); putenv("PYTHONFAULTHANDLER=1"); putenv("PYTHONDEVMODE=1"); /* FIXME: test PYTHONWARNINGS */ /* FIXME: test PYTHONEXECUTABLE */ /* FIXME: test PYTHONHOME */ /* FIXME: test PYTHONDEBUG */ /* FIXME: test PYTHONDUMPREFS */ /* FIXME: test PYTHONCOERCECLOCALE */ /* FIXME: test PYTHONPATH */ } static int test_init_env(void) { /* Test initialization from environment variables */ Py_IgnoreEnvironmentFlag = 0; test_init_env_putenvs(); _testembed_Py_Initialize(); dump_config(); Py_Finalize(); return 0; } static int test_init_isolated(void) { /* Test _PyCoreConfig.isolated=1 */ _PyCoreConfig config = _PyCoreConfig_INIT; /* Set coerce_c_locale and utf8_mode to not depend on the locale */ config.coerce_c_locale = 0; config.utf8_mode = 0; /* Use path starting with "./" avoids a search along the PATH */ config.program_name = L"./_testembed"; Py_IsolatedFlag = 1; test_init_env_putenvs(); _PyInitError err = _Py_InitializeFromConfig(&config); if (_Py_INIT_FAILED(err)) { _Py_FatalInitError(err); } dump_config(); Py_Finalize(); return 0; } static int test_init_dev_mode(void) { _PyCoreConfig config = _PyCoreConfig_INIT; putenv("PYTHONFAULTHANDLER="); putenv("PYTHONMALLOC="); config.dev_mode = 1; config.program_name = L"./_testembed"; _PyInitError err = _Py_InitializeFromConfig(&config); if (_Py_INIT_FAILED(err)) { _Py_FatalInitError(err); } dump_config(); Py_Finalize(); return 0; } /* ********************************************************* * List of test cases and the function that implements it. * * Names are compared case-sensitively with the first * argument. If no match is found, or no first argument was * provided, the names of all test cases are printed and * the exit code will be -1. * * The int returned from test functions is used as the exit * code, and test_capi treats all non-zero exit codes as a * failed test. *********************************************************/ struct TestCase { const char *name; int (*func)(void); }; static struct TestCase TestCases[] = { { "forced_io_encoding", test_forced_io_encoding }, { "repeated_init_and_subinterpreters", test_repeated_init_and_subinterpreters }, { "pre_initialization_api", test_pre_initialization_api }, { "pre_initialization_sys_options", test_pre_initialization_sys_options }, { "bpo20891", test_bpo20891 }, { "initialize_twice", test_initialize_twice }, { "initialize_pymain", test_initialize_pymain }, { "init_default_config", test_init_default_config }, { "init_global_config", test_init_global_config }, { "init_from_config", test_init_from_config }, { "init_env", test_init_env }, { "init_dev_mode", test_init_dev_mode }, { "init_isolated", test_init_isolated }, { NULL, NULL } }; int main(int argc, char *argv[]) { if (argc > 1) { for (struct TestCase *tc = TestCases; tc && tc->name; tc++) { if (strcmp(argv[1], tc->name) == 0) return (*tc->func)(); } } /* No match found, or no test name provided, so display usage */ printf("Python " PY_VERSION " _testembed executable for embedded interpreter tests\n" "Normally executed via 'EmbeddingTests' in Lib/test/test_embed.py\n\n" "Usage: %s TESTNAME\n\nAll available tests:\n", argv[0]); for (struct TestCase *tc = TestCases; tc && tc->name; tc++) { printf(" %s\n", tc->name); } /* Non-zero exit code will cause test_embed.py tests to fail. This is intentional. */ return -1; }