/* Testing module for single-phase initialization of extension modules This file contains 8 distinct modules, meaning each as its own name and its own init function (PyInit_...). The default import system will only find the one matching the filename: _testsinglephase. To load the others you must do so manually. For example: ```python name = '_testsinglephase_base_wrapper' filename = _testsinglephase.__file__ loader = importlib.machinery.ExtensionFileLoader(name, filename) spec = importlib.util.spec_from_file_location(name, filename, loader=loader) mod = importlib._bootstrap._load(spec) ``` Here are the 8 modules: * _testsinglephase * def: _testsinglephase_basic, * m_name: "_testsinglephase" * m_size: -1 * state * process-global * initialized_count (default to -1; will never be 0) * module (see module state below) * module state: no * initial __dict__: see common initial __dict__ below * init function 1. create module 2. clear .module 3. initialize .module: see module state below 4. initialize module: set initial __dict__ 5. increment .initialized_count * functions * (3 common, see below) * initialized_count() - return .module.initialized_count * import system * caches * global extensions cache: yes * def.m_base.m_copy: yes * def.m_base.m_init: no * per-interpreter cache: yes (all single-phase init modules) * load in main interpreter * initial (not already in global cache) 1. get init function from shared object file 2. run init function 3. copy __dict__ into def.m_base.m_copy 4. set entry in global cache 5. set entry in per-interpreter cache 6. set entry in sys.modules * reload (already in sys.modules) 1. get def from global cache 2. get module from sys.modules 3. update module with contents of def.m_base.m_copy * already loaded in other interpreter (already in global cache) * same as reload, but create new module and update *it* * not in any sys.modules, still in global cache * same as already loaded * load in legacy (non-isolated) interpreter * same as main interpreter * unload: never (all single-phase init modules) * _testsinglephase_basic_wrapper * identical to _testsinglephase except module name * _testsinglephase_basic_copy * def: static local variable in init function * m_name: "_testsinglephase_basic_copy" * m_size: -1 * state: same as _testsinglephase * init function: same as _testsinglephase * functions: same as _testsinglephase * import system: same as _testsinglephase * _testsinglephase_with_reinit * def: _testsinglephase_with_reinit, * m_name: "_testsinglephase_with_reinit" * m_size: 0 * state * process-global state: no * module state: no * initial __dict__: see common initial __dict__ below * init function 1. create module 2. initialize temporary module state (local var): see module state below 3. initialize module: set initial __dict__ * functions: see common functions below * import system * caches * global extensions cache: only if loaded in main interpreter * def.m_base.m_copy: no * def.m_base.m_init: only if loaded in the main interpreter * per-interpreter cache: yes (all single-phase init modules) * load in main interpreter * initial (not already in global cache) * (same as _testsinglephase except step 3) 1. get init function from shared object file 2. run init function 3. set def.m_base.m_init to the init function 4. set entry in global cache 5. set entry in per-interpreter cache 6. set entry in sys.modules * reload (already in sys.modules) 1. get def from global cache 2. call def->m_base.m_init to get a new module object 3. replace the existing module in sys.modules * already loaded in other interpreter (already in global cache) * same as reload (since will only be in cache for main interp) * not in any sys.modules, still in global cache * same as already loaded * load in legacy (non-isolated) interpreter * initial (not already in global cache) * (same as main interpreter except skip steps 3 & 4 there) 1. get init function from shared object file 2. run init function ... 5. set entry in per-interpreter cache 6. set entry in sys.modules * reload (already in sys.modules) * same as initial (load from scratch) * already loaded in other interpreter (already in global cache) * same as initial (load from scratch) * not in any sys.modules, still in global cache * same as initial (load from scratch) * unload: never (all single-phase init modules) * _testsinglephase_with_state * def: _testsinglephase_with_state, * m_name: "_testsinglephase_with_state" * m_size: sizeof(module_state) * state * process-global: no * module state: see module state below * initial __dict__: see common initial __dict__ below * init function 1. create module 3. initialize module state: see module state below 4. initialize module: set initial __dict__ 5. increment .initialized_count * functions: see common functions below * import system: same as _testsinglephase_basic_copy * _testsinglephase_check_cache_first * def: _testsinglepahse_check_cache_first * m_name: "_testsinglephase_check_cache_first" * m_size: -1 * state: none * init function: * tries PyState_FindModule() first * otherwise creates empty module * functions: none * import system: same as _testsinglephase * _testsinglephase_with_reinit_check_cache_first * def: _testsinglepahse_with_reinit_check_cache_first * m_name: "_testsinglephase_with_reinit_check_cache_first" * m_size: 0 * state: none * init function: same as _testsinglephase_check_cache_first * functions: none * import system: same as _testsinglephase_with_reinit * _testsinglephase_with_state_check_cache_first * def: _testsinglepahse_with_state_check_cache_first * m_name: "_testsinglephase_with_state_check_cache_first" * m_size: 42 * state: none * init function: same as _testsinglephase_check_cache_first * functions: none * import system: same as _testsinglephase_with_state Module state: * fields * initialized - when the module was first initialized * *error * *int_const * *str_const * initialization 1. set state.initialized to the current time 2. set state.error to a new exception class 3. set state->int_const to int(1969) 4. set state->str_const to "something different" Common initial __dict__: * error: state.error * int_const: state.int_const * str_const: state.str_const * _module_initialized: state.initialized Common functions: * look_up_self() - return the module from the per-interpreter "by-index" cache * sum() - return a + b * state_initialized() - return state->initialized (or None if m_size == 0) See Python/import.c, especially the long comments, for more about single-phase init modules. */ #ifndef Py_BUILD_CORE_BUILTIN # define Py_BUILD_CORE_MODULE 1 #endif //#include #include "Python.h" #include "pycore_namespace.h" // _PyNamespace_New() typedef struct { PyTime_t initialized; PyObject *error; PyObject *int_const; PyObject *str_const; } module_state; /* Process-global state is only used by _testsinglephase since it's the only one that does not support re-init. */ static struct { int initialized_count; module_state module; } global_state = { #define NOT_INITIALIZED -1 .initialized_count = NOT_INITIALIZED, }; static void clear_state(module_state *state); static void clear_global_state(void) { clear_state(&global_state.module); global_state.initialized_count = NOT_INITIALIZED; } static inline module_state * get_module_state(PyObject *module) { PyModuleDef *def = PyModule_GetDef(module); if (def->m_size == -1) { return &global_state.module; } else if (def->m_size == 0) { return NULL; } else { module_state *state = (module_state*)PyModule_GetState(module); assert(state != NULL); return state; } } static void clear_state(module_state *state) { state->initialized = 0; Py_CLEAR(state->error); Py_CLEAR(state->int_const); Py_CLEAR(state->str_const); } static int _set_initialized(PyTime_t *initialized) { /* We go strictly monotonic to ensure each time is unique. */ PyTime_t prev; if (PyTime_Monotonic(&prev) != 0) { return -1; } /* We do a busy sleep since the interval should be super short. */ PyTime_t t; do { if (PyTime_Monotonic(&t) != 0) { return -1; } } while (t == prev); *initialized = t; return 0; } static int init_state(module_state *state) { assert(state->initialized == 0 && state->error == NULL && state->int_const == NULL && state->str_const == NULL); if (_set_initialized(&state->initialized) != 0) { goto error; } assert(state->initialized > 0); /* Add an exception type */ state->error = PyErr_NewException("_testsinglephase.error", NULL, NULL); if (state->error == NULL) { goto error; } state->int_const = PyLong_FromLong(1969); if (state->int_const == NULL) { goto error; } state->str_const = PyUnicode_FromString("something different"); if (state->str_const == NULL) { goto error; } return 0; error: clear_state(state); return -1; } static int init_module(PyObject *module, module_state *state) { if (PyModule_AddObjectRef(module, "error", state->error) != 0) { return -1; } if (PyModule_AddObjectRef(module, "int_const", state->int_const) != 0) { return -1; } if (PyModule_AddObjectRef(module, "str_const", state->str_const) != 0) { return -1; } double d = PyTime_AsSecondsDouble(state->initialized); if (PyModule_Add(module, "_module_initialized", PyFloat_FromDouble(d)) < 0) { return -1; } return 0; } PyDoc_STRVAR(common_state_initialized_doc, "state_initialized()\n\ \n\ Return the seconds-since-epoch when the module state was initialized."); static PyObject * common_state_initialized(PyObject *self, PyObject *Py_UNUSED(ignored)) { module_state *state = get_module_state(self); if (state == NULL) { Py_RETURN_NONE; } double d = PyTime_AsSecondsDouble(state->initialized); return PyFloat_FromDouble(d); } #define STATE_INITIALIZED_METHODDEF \ {"state_initialized", common_state_initialized, METH_NOARGS, \ common_state_initialized_doc} PyDoc_STRVAR(common_look_up_self_doc, "look_up_self()\n\ \n\ Return the module associated with this module's def.m_base.m_index."); static PyObject * common_look_up_self(PyObject *self, PyObject *Py_UNUSED(ignored)) { PyModuleDef *def = PyModule_GetDef(self); if (def == NULL) { return NULL; } return Py_NewRef( PyState_FindModule(def)); } #define LOOK_UP_SELF_METHODDEF \ {"look_up_self", common_look_up_self, METH_NOARGS, common_look_up_self_doc} /* Function of two integers returning integer */ PyDoc_STRVAR(common_sum_doc, "sum(i,j)\n\ \n\ Return the sum of i and j."); static PyObject * common_sum(PyObject *self, PyObject *args) { long i, j; long res; if (!PyArg_ParseTuple(args, "ll:sum", &i, &j)) return NULL; res = i + j; return PyLong_FromLong(res); } #define SUM_METHODDEF \ {"sum", common_sum, METH_VARARGS, common_sum_doc} PyDoc_STRVAR(basic_initialized_count_doc, "initialized_count()\n\ \n\ Return how many times the module has been initialized."); static PyObject * basic_initialized_count(PyObject *self, PyObject *Py_UNUSED(ignored)) { assert(PyModule_GetDef(self)->m_size == -1); return PyLong_FromLong(global_state.initialized_count); } #define INITIALIZED_COUNT_METHODDEF \ {"initialized_count", basic_initialized_count, METH_NOARGS, \ basic_initialized_count_doc} PyDoc_STRVAR(basic__clear_globals_doc, "_clear_globals()\n\ \n\ Free all global state and set it to uninitialized."); static PyObject * basic__clear_globals(PyObject *self, PyObject *Py_UNUSED(ignored)) { assert(PyModule_GetDef(self)->m_size == -1); clear_global_state(); Py_RETURN_NONE; } #define _CLEAR_GLOBALS_METHODDEF \ {"_clear_globals", basic__clear_globals, METH_NOARGS, \ basic__clear_globals_doc} PyDoc_STRVAR(basic__clear_module_state_doc, "_clear_module_state()\n\ \n\ Free the module state and set it to uninitialized."); static PyObject * basic__clear_module_state(PyObject *self, PyObject *Py_UNUSED(ignored)) { module_state *state = get_module_state(self); if (state != NULL) { clear_state(state); } Py_RETURN_NONE; } #define _CLEAR_MODULE_STATE_METHODDEF \ {"_clear_module_state", basic__clear_module_state, METH_NOARGS, \ basic__clear_module_state_doc} /*********************************************/ /* the _testsinglephase module (and aliases) */ /*********************************************/ /* This ia more typical of legacy extensions in the wild: - single-phase init - no module state - does not support repeated initialization (so m_copy is used) - the module def is cached in _PyRuntime.extensions (by name/filename) Also note that, because the module has single-phase init, it is cached in interp->module_by_index (using mod->md_def->m_base.m_index). */ static PyMethodDef TestMethods_Basic[] = { LOOK_UP_SELF_METHODDEF, SUM_METHODDEF, STATE_INITIALIZED_METHODDEF, INITIALIZED_COUNT_METHODDEF, _CLEAR_GLOBALS_METHODDEF, {NULL, NULL} /* sentinel */ }; static struct PyModuleDef _testsinglephase_basic = { PyModuleDef_HEAD_INIT, .m_name = "_testsinglephase", .m_doc = PyDoc_STR("Test module _testsinglephase"), .m_size = -1, // no module state .m_methods = TestMethods_Basic, }; static PyObject * init__testsinglephase_basic(PyModuleDef *def) { if (global_state.initialized_count == -1) { global_state.initialized_count = 0; } PyObject *module = PyModule_Create(def); if (module == NULL) { return NULL; } #ifdef Py_GIL_DISABLED PyUnstable_Module_SetGIL(module, Py_MOD_GIL_NOT_USED); #endif module_state *state = &global_state.module; // It may have been set by a previous run or under a different name. clear_state(state); if (init_state(state) < 0) { Py_CLEAR(module); return NULL; } if (init_module(module, state) < 0) { Py_CLEAR(module); goto finally; } global_state.initialized_count++; finally: return module; } PyMODINIT_FUNC PyInit__testsinglephase(void) { return init__testsinglephase_basic(&_testsinglephase_basic); } PyMODINIT_FUNC PyInit__testsinglephase_basic_wrapper(void) { return PyInit__testsinglephase(); } PyMODINIT_FUNC PyInit__testsinglephase_basic_copy(void) { static struct PyModuleDef def = { PyModuleDef_HEAD_INIT, .m_name = "_testsinglephase_basic_copy", .m_doc = PyDoc_STR("Test module _testsinglephase_basic_copy"), .m_size = -1, // no module state .m_methods = TestMethods_Basic, }; return init__testsinglephase_basic(&def); } /*******************************************/ /* the _testsinglephase_with_reinit module */ /*******************************************/ /* This ia less typical of legacy extensions in the wild: - single-phase init (same as _testsinglephase above) - no module state - supports repeated initialization (so m_copy is not used) - the module def is not cached in _PyRuntime.extensions At this point most modules would reach for multi-phase init (PEP 489). However, module state has been around a while (PEP 3121), and most extensions predate multi-phase init. (This module is basically the same as _testsinglephase, but supports repeated initialization.) */ static PyMethodDef TestMethods_Reinit[] = { LOOK_UP_SELF_METHODDEF, SUM_METHODDEF, STATE_INITIALIZED_METHODDEF, {NULL, NULL} /* sentinel */ }; static struct PyModuleDef _testsinglephase_with_reinit = { PyModuleDef_HEAD_INIT, .m_name = "_testsinglephase_with_reinit", .m_doc = PyDoc_STR("Test module _testsinglephase_with_reinit"), .m_size = 0, .m_methods = TestMethods_Reinit, }; PyMODINIT_FUNC PyInit__testsinglephase_with_reinit(void) { /* We purposefully do not try PyState_FindModule() first here since we want to check the behavior of re-loading the module. */ PyObject *module = PyModule_Create(&_testsinglephase_with_reinit); if (module == NULL) { return NULL; } #ifdef Py_GIL_DISABLED PyUnstable_Module_SetGIL(module, Py_MOD_GIL_NOT_USED); #endif assert(get_module_state(module) == NULL); module_state state = {0}; if (init_state(&state) < 0) { Py_CLEAR(module); return NULL; } if (init_module(module, &state) < 0) { Py_CLEAR(module); goto finally; } finally: /* We only needed the module state for setting the module attrs. */ clear_state(&state); return module; } /******************************************/ /* the _testsinglephase_with_state module */ /******************************************/ /* This is less typical of legacy extensions in the wild: - single-phase init (same as _testsinglephase above) - has some module state - supports repeated initialization (so m_copy is not used) - the module def is not cached in _PyRuntime.extensions At this point most modules would reach for multi-phase init (PEP 489). However, module state has been around a while (PEP 3121), and most extensions predate multi-phase init. */ static PyMethodDef TestMethods_WithState[] = { LOOK_UP_SELF_METHODDEF, SUM_METHODDEF, STATE_INITIALIZED_METHODDEF, _CLEAR_MODULE_STATE_METHODDEF, {NULL, NULL} /* sentinel */ }; static struct PyModuleDef _testsinglephase_with_state = { PyModuleDef_HEAD_INIT, .m_name = "_testsinglephase_with_state", .m_doc = PyDoc_STR("Test module _testsinglephase_with_state"), .m_size = sizeof(module_state), .m_methods = TestMethods_WithState, }; PyMODINIT_FUNC PyInit__testsinglephase_with_state(void) { /* We purposefully do not try PyState_FindModule() first here since we want to check the behavior of re-loading the module. */ PyObject *module = PyModule_Create(&_testsinglephase_with_state); if (module == NULL) { return NULL; } #ifdef Py_GIL_DISABLED PyUnstable_Module_SetGIL(module, Py_MOD_GIL_NOT_USED); #endif module_state *state = get_module_state(module); assert(state != NULL); if (init_state(state) < 0) { Py_CLEAR(module); return NULL; } if (init_module(module, state) < 0) { clear_state(state); Py_CLEAR(module); goto finally; } finally: return module; } /****************************************************/ /* the _testsinglephase_*_check_cache_first modules */ /****************************************************/ /* Each of these modules should only be freshly loaded. That means clearing the caches and each module def's m_base after each load. */ static struct PyModuleDef _testsinglephase_check_cache_first = { PyModuleDef_HEAD_INIT, .m_name = "_testsinglephase_check_cache_first", .m_doc = PyDoc_STR("Test module _testsinglephase_check_cache_first"), .m_size = -1, // no module state }; PyMODINIT_FUNC PyInit__testsinglephase_check_cache_first(void) { assert(_testsinglephase_check_cache_first.m_base.m_index == 0); PyObject *mod = PyState_FindModule(&_testsinglephase_check_cache_first); if (mod != NULL) { return Py_NewRef(mod); } return PyModule_Create(&_testsinglephase_check_cache_first); } static struct PyModuleDef _testsinglephase_with_reinit_check_cache_first = { PyModuleDef_HEAD_INIT, .m_name = "_testsinglephase_with_reinit_check_cache_first", .m_doc = PyDoc_STR("Test module _testsinglephase_with_reinit_check_cache_first"), .m_size = 0, // no module state }; PyMODINIT_FUNC PyInit__testsinglephase_with_reinit_check_cache_first(void) { assert(_testsinglephase_with_reinit_check_cache_first.m_base.m_index == 0); PyObject *mod = PyState_FindModule(&_testsinglephase_with_reinit_check_cache_first); if (mod != NULL) { return Py_NewRef(mod); } return PyModule_Create(&_testsinglephase_with_reinit_check_cache_first); } static struct PyModuleDef _testsinglephase_with_state_check_cache_first = { PyModuleDef_HEAD_INIT, .m_name = "_testsinglephase_with_state_check_cache_first", .m_doc = PyDoc_STR("Test module _testsinglephase_with_state_check_cache_first"), .m_size = 42, // not used }; PyMODINIT_FUNC PyInit__testsinglephase_with_state_check_cache_first(void) { assert(_testsinglephase_with_state_check_cache_first.m_base.m_index == 0); PyObject *mod = PyState_FindModule(&_testsinglephase_with_state_check_cache_first); if (mod != NULL) { return Py_NewRef(mod); } return PyModule_Create(&_testsinglephase_with_state_check_cache_first); }