/* Support for dynamic loading of extension modules */ #include "Python.h" #include "pycore_call.h" #include "pycore_import.h" #include "pycore_pyerrors.h" // _PyErr_FormatFromCause() #include "pycore_pystate.h" #include "pycore_runtime.h" #include "pycore_importdl.h" /* ./configure sets HAVE_DYNAMIC_LOADING if dynamic loading of modules is supported on this platform. configure will then compile and link in one of the dynload_*.c files, as appropriate. We will call a function in those modules to get a function pointer to the module's init function. */ #ifdef HAVE_DYNAMIC_LOADING #ifdef MS_WINDOWS extern dl_funcptr _PyImport_FindSharedFuncptrWindows(const char *prefix, const char *shortname, PyObject *pathname, FILE *fp); #else extern dl_funcptr _PyImport_FindSharedFuncptr(const char *prefix, const char *shortname, const char *pathname, FILE *fp); #endif #endif /* HAVE_DYNAMIC_LOADING */ /***********************************/ /* module info to use when loading */ /***********************************/ static const char * const ascii_only_prefix = "PyInit"; static const char * const nonascii_prefix = "PyInitU"; /* Get the variable part of a module's export symbol name. * Returns a bytes instance. For non-ASCII-named modules, the name is * encoded as per PEP 489. * The hook_prefix pointer is set to either ascii_only_prefix or * nonascii_prefix, as appropriate. */ static PyObject * get_encoded_name(PyObject *name, const char **hook_prefix) { PyObject *tmp; PyObject *encoded = NULL; PyObject *modname = NULL; Py_ssize_t name_len, lastdot; /* Get the short name (substring after last dot) */ name_len = PyUnicode_GetLength(name); if (name_len < 0) { return NULL; } lastdot = PyUnicode_FindChar(name, '.', 0, name_len, -1); if (lastdot < -1) { return NULL; } else if (lastdot >= 0) { tmp = PyUnicode_Substring(name, lastdot + 1, name_len); if (tmp == NULL) return NULL; name = tmp; /* "name" now holds a new reference to the substring */ } else { Py_INCREF(name); } /* Encode to ASCII or Punycode, as needed */ encoded = PyUnicode_AsEncodedString(name, "ascii", NULL); if (encoded != NULL) { *hook_prefix = ascii_only_prefix; } else { if (PyErr_ExceptionMatches(PyExc_UnicodeEncodeError)) { PyErr_Clear(); encoded = PyUnicode_AsEncodedString(name, "punycode", NULL); if (encoded == NULL) { goto error; } *hook_prefix = nonascii_prefix; } else { goto error; } } /* Replace '-' by '_' */ modname = _PyObject_CallMethod(encoded, &_Py_ID(replace), "cc", '-', '_'); if (modname == NULL) goto error; Py_DECREF(name); Py_DECREF(encoded); return modname; error: Py_DECREF(name); Py_XDECREF(encoded); return NULL; } void _Py_ext_module_loader_info_clear(struct _Py_ext_module_loader_info *info) { Py_CLEAR(info->filename); #ifndef MS_WINDOWS Py_CLEAR(info->filename_encoded); #endif Py_CLEAR(info->name); Py_CLEAR(info->name_encoded); } int _Py_ext_module_loader_info_init(struct _Py_ext_module_loader_info *p_info, PyObject *name, PyObject *filename, _Py_ext_module_origin origin) { struct _Py_ext_module_loader_info info = { .origin=origin, }; assert(name != NULL); if (!PyUnicode_Check(name)) { PyErr_SetString(PyExc_TypeError, "module name must be a string"); _Py_ext_module_loader_info_clear(&info); return -1; } assert(PyUnicode_GetLength(name) > 0); info.name = Py_NewRef(name); info.name_encoded = get_encoded_name(info.name, &info.hook_prefix); if (info.name_encoded == NULL) { _Py_ext_module_loader_info_clear(&info); return -1; } info.newcontext = PyUnicode_AsUTF8(info.name); if (info.newcontext == NULL) { _Py_ext_module_loader_info_clear(&info); return -1; } if (filename != NULL) { if (!PyUnicode_Check(filename)) { PyErr_SetString(PyExc_TypeError, "module filename must be a string"); _Py_ext_module_loader_info_clear(&info); return -1; } info.filename = Py_NewRef(filename); #ifndef MS_WINDOWS info.filename_encoded = PyUnicode_EncodeFSDefault(info.filename); if (info.filename_encoded == NULL) { _Py_ext_module_loader_info_clear(&info); return -1; } #endif info.path = info.filename; } else { info.path = info.name; } *p_info = info; return 0; } int _Py_ext_module_loader_info_init_for_builtin( struct _Py_ext_module_loader_info *info, PyObject *name) { assert(PyUnicode_Check(name)); assert(PyUnicode_FindChar(name, '.', 0, PyUnicode_GetLength(name), -1) == -1); assert(PyUnicode_GetLength(name) > 0); PyObject *name_encoded = PyUnicode_AsEncodedString(name, "ascii", NULL); if (name_encoded == NULL) { return -1; } *info = (struct _Py_ext_module_loader_info){ .name=Py_NewRef(name), .name_encoded=name_encoded, /* We won't need filename. */ .path=name, .origin=_Py_ext_module_origin_BUILTIN, .hook_prefix=ascii_only_prefix, .newcontext=NULL, }; return 0; } int _Py_ext_module_loader_info_init_for_core( struct _Py_ext_module_loader_info *info, PyObject *name) { if (_Py_ext_module_loader_info_init_for_builtin(info, name) < 0) { return -1; } info->origin = _Py_ext_module_origin_CORE; return 0; } #ifdef HAVE_DYNAMIC_LOADING int _Py_ext_module_loader_info_init_from_spec( struct _Py_ext_module_loader_info *p_info, PyObject *spec) { PyObject *name = PyObject_GetAttrString(spec, "name"); if (name == NULL) { return -1; } PyObject *filename = PyObject_GetAttrString(spec, "origin"); if (filename == NULL) { Py_DECREF(name); return -1; } /* We could also accommodate builtin modules here without much trouble. */ _Py_ext_module_origin origin = _Py_ext_module_origin_DYNAMIC; int err = _Py_ext_module_loader_info_init(p_info, name, filename, origin); Py_DECREF(name); Py_DECREF(filename); return err; } #endif /* HAVE_DYNAMIC_LOADING */ /********************************/ /* module init function results */ /********************************/ void _Py_ext_module_loader_result_clear(struct _Py_ext_module_loader_result *res) { /* Instead, the caller should have called * _Py_ext_module_loader_result_apply_error(). */ assert(res->err == NULL); *res = (struct _Py_ext_module_loader_result){0}; } static void _Py_ext_module_loader_result_set_error( struct _Py_ext_module_loader_result *res, enum _Py_ext_module_loader_result_error_kind kind) { #ifndef NDEBUG switch (kind) { case _Py_ext_module_loader_result_EXCEPTION: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_UNREPORTED_EXC: assert(PyErr_Occurred()); break; case _Py_ext_module_loader_result_ERR_MISSING: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_UNINITIALIZED: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_NONASCII_NOT_MULTIPHASE: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_NOT_MODULE: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_MISSING_DEF: assert(!PyErr_Occurred()); break; default: /* We added a new error kind but forgot to add it to this switch. */ assert(0); } #endif assert(res->err == NULL && res->_err.exc == NULL); res->err = &res->_err; *res->err = (struct _Py_ext_module_loader_result_error){ .kind=kind, .exc=PyErr_GetRaisedException(), }; /* For some kinds, we also set/check res->kind. */ switch (kind) { case _Py_ext_module_loader_result_ERR_UNINITIALIZED: assert(res->kind == _Py_ext_module_kind_UNKNOWN); res->kind = _Py_ext_module_kind_INVALID; break; /* None of the rest affect the result kind. */ case _Py_ext_module_loader_result_EXCEPTION: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_MISSING: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_UNREPORTED_EXC: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_NONASCII_NOT_MULTIPHASE: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_NOT_MODULE: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_MISSING_DEF: break; default: /* We added a new error kind but forgot to add it to this switch. */ assert(0); } } void _Py_ext_module_loader_result_apply_error( struct _Py_ext_module_loader_result *res, const char *name) { assert(!PyErr_Occurred()); assert(res->err != NULL && res->err == &res->_err); struct _Py_ext_module_loader_result_error err = *res->err; res->err = NULL; /* We're otherwise done with the result at this point. */ _Py_ext_module_loader_result_clear(res); #ifndef NDEBUG switch (err.kind) { case _Py_ext_module_loader_result_EXCEPTION: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_UNREPORTED_EXC: assert(err.exc != NULL); break; case _Py_ext_module_loader_result_ERR_MISSING: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_UNINITIALIZED: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_NONASCII_NOT_MULTIPHASE: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_NOT_MODULE: _Py_FALLTHROUGH; case _Py_ext_module_loader_result_ERR_MISSING_DEF: assert(err.exc == NULL); break; default: /* We added a new error kind but forgot to add it to this switch. */ assert(0); } #endif const char *msg = NULL; switch (err.kind) { case _Py_ext_module_loader_result_EXCEPTION: break; case _Py_ext_module_loader_result_ERR_MISSING: msg = "initialization of %s failed without raising an exception"; break; case _Py_ext_module_loader_result_ERR_UNREPORTED_EXC: msg = "initialization of %s raised unreported exception"; break; case _Py_ext_module_loader_result_ERR_UNINITIALIZED: msg = "init function of %s returned uninitialized object"; break; case _Py_ext_module_loader_result_ERR_NONASCII_NOT_MULTIPHASE: msg = "initialization of %s did not return PyModuleDef"; break; case _Py_ext_module_loader_result_ERR_NOT_MODULE: msg = "initialization of %s did not return an extension module"; break; case _Py_ext_module_loader_result_ERR_MISSING_DEF: msg = "initialization of %s did not return a valid extension module"; break; default: /* We added a new error kind but forgot to add it to this switch. */ assert(0); PyErr_Format(PyExc_SystemError, "loading %s failed due to init function", name); return; } if (err.exc != NULL) { PyErr_SetRaisedException(err.exc); err.exc = NULL; /* PyErr_SetRaisedException() stole our reference. */ if (msg != NULL) { _PyErr_FormatFromCause(PyExc_SystemError, msg, name); } } else { assert(msg != NULL); PyErr_Format(PyExc_SystemError, msg, name); } } /********************************************/ /* getting/running the module init function */ /********************************************/ #ifdef HAVE_DYNAMIC_LOADING PyModInitFunction _PyImport_GetModInitFunc(struct _Py_ext_module_loader_info *info, FILE *fp) { const char *name_buf = PyBytes_AS_STRING(info->name_encoded); dl_funcptr exportfunc; #ifdef MS_WINDOWS exportfunc = _PyImport_FindSharedFuncptrWindows( info->hook_prefix, name_buf, info->filename, fp); #else { const char *path_buf = PyBytes_AS_STRING(info->filename_encoded); exportfunc = _PyImport_FindSharedFuncptr( info->hook_prefix, name_buf, path_buf, fp); } #endif if (exportfunc == NULL) { if (!PyErr_Occurred()) { PyObject *msg; msg = PyUnicode_FromFormat( "dynamic module does not define " "module export function (%s_%s)", info->hook_prefix, name_buf); if (msg != NULL) { PyErr_SetImportError(msg, info->name, info->filename); Py_DECREF(msg); } } return NULL; } return (PyModInitFunction)exportfunc; } #endif /* HAVE_DYNAMIC_LOADING */ int _PyImport_RunModInitFunc(PyModInitFunction p0, struct _Py_ext_module_loader_info *info, struct _Py_ext_module_loader_result *p_res) { struct _Py_ext_module_loader_result res = { .kind=_Py_ext_module_kind_UNKNOWN, }; /* Call the module init function. */ /* Package context is needed for single-phase init */ const char *oldcontext = _PyImport_SwapPackageContext(info->newcontext); PyObject *m = p0(); _PyImport_SwapPackageContext(oldcontext); /* Validate the result (and populate "res". */ if (m == NULL) { /* The init func for multi-phase init modules is expected * to return a PyModuleDef after calling PyModuleDef_Init(). * That function never raises an exception nor returns NULL, * so at this point it must be a single-phase init modules. */ res.kind = _Py_ext_module_kind_SINGLEPHASE; if (PyErr_Occurred()) { _Py_ext_module_loader_result_set_error( &res, _Py_ext_module_loader_result_EXCEPTION); } else { _Py_ext_module_loader_result_set_error( &res, _Py_ext_module_loader_result_ERR_MISSING); } goto error; } else if (PyErr_Occurred()) { /* Likewise, we infer that this is a single-phase init module. */ res.kind = _Py_ext_module_kind_SINGLEPHASE; _Py_ext_module_loader_result_set_error( &res, _Py_ext_module_loader_result_ERR_UNREPORTED_EXC); /* We would probably be correct to decref m here, * but we weren't doing so before, * so we stick with doing nothing. */ m = NULL; goto error; } if (Py_IS_TYPE(m, NULL)) { /* This can happen when a PyModuleDef is returned without calling * PyModuleDef_Init on it */ _Py_ext_module_loader_result_set_error( &res, _Py_ext_module_loader_result_ERR_UNINITIALIZED); /* Likewise, decref'ing here makes sense. However, the original * code has a note about "prevent segfault in DECREF", * so we play it safe and leave it alone. */ m = NULL; /* prevent segfault in DECREF */ goto error; } if (PyObject_TypeCheck(m, &PyModuleDef_Type)) { /* multi-phase init */ res.kind = _Py_ext_module_kind_MULTIPHASE; res.def = (PyModuleDef *)m; /* Run PyModule_FromDefAndSpec() to finish loading the module. */ } else if (info->hook_prefix == nonascii_prefix) { /* Non-ASCII is only supported for multi-phase init. */ res.kind = _Py_ext_module_kind_MULTIPHASE; /* Don't allow legacy init for non-ASCII module names. */ _Py_ext_module_loader_result_set_error( &res, _Py_ext_module_loader_result_ERR_NONASCII_NOT_MULTIPHASE); goto error; } else { /* single-phase init (legacy) */ res.kind = _Py_ext_module_kind_SINGLEPHASE; res.module = m; if (!PyModule_Check(m)) { _Py_ext_module_loader_result_set_error( &res, _Py_ext_module_loader_result_ERR_NOT_MODULE); goto error; } res.def = _PyModule_GetDef(m); if (res.def == NULL) { PyErr_Clear(); _Py_ext_module_loader_result_set_error( &res, _Py_ext_module_loader_result_ERR_MISSING_DEF); goto error; } } assert(!PyErr_Occurred()); assert(res.err == NULL); *p_res = res; return 0; error: assert(!PyErr_Occurred()); assert(res.err != NULL); Py_CLEAR(res.module); res.def = NULL; *p_res = res; p_res->err = &p_res->_err; return -1; }