/* psycopgmodule.c - psycopg module (will import other C classes) * * Copyright (C) 2003-2019 Federico Di Gregorio * * This file is part of psycopg. * * psycopg2 is free software: you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published * by the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * In addition, as a special exception, the copyright holders give * permission to link this program with the OpenSSL library (or with * modified versions of OpenSSL that use the same license as OpenSSL), * and distribute linked combinations including the two. * * You must obey the GNU Lesser General Public License in all respects for * all of the code used other than OpenSSL. * * psycopg2 is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public * License for more details. */ #define PSYCOPG_MODULE #include "psycopg/psycopg.h" #include "psycopg/connection.h" #include "psycopg/cursor.h" #include "psycopg/replication_connection.h" #include "psycopg/replication_cursor.h" #include "psycopg/replication_message.h" #include "psycopg/green.h" #include "psycopg/column.h" #include "psycopg/lobject.h" #include "psycopg/notify.h" #include "psycopg/xid.h" #include "psycopg/typecast.h" #include "psycopg/microprotocols.h" #include "psycopg/microprotocols_proto.h" #include "psycopg/conninfo.h" #include "psycopg/diagnostics.h" #include "psycopg/adapter_qstring.h" #include "psycopg/adapter_binary.h" #include "psycopg/adapter_pboolean.h" #include "psycopg/adapter_pint.h" #include "psycopg/adapter_pfloat.h" #include "psycopg/adapter_pdecimal.h" #include "psycopg/adapter_asis.h" #include "psycopg/adapter_list.h" #include "psycopg/typecast_binary.h" #ifdef HAVE_MXDATETIME #include #include "psycopg/adapter_mxdatetime.h" #endif /* some module-level variables, like the datetime module */ #include #include "psycopg/adapter_datetime.h" HIDDEN PyObject *psycoEncodings = NULL; HIDDEN PyObject *sqlstate_errors = NULL; #ifdef PSYCOPG_DEBUG HIDDEN int psycopg_debug_enabled = 0; #endif /* Python representation of SQL NULL */ HIDDEN PyObject *psyco_null = NULL; /* macro trick to stringify a macro expansion */ #define xstr(s) str(s) #define str(s) #s /** connect module-level function **/ #define psyco_connect_doc \ "_connect(dsn, [connection_factory], [async]) -- New database connection.\n\n" static PyObject * psyco_connect(PyObject *self, PyObject *args, PyObject *keywds) { PyObject *conn = NULL; PyObject *factory = NULL; const char *dsn = NULL; int async = 0, async_ = 0; static char *kwlist[] = {"dsn", "connection_factory", "async", "async_", NULL}; if (!PyArg_ParseTupleAndKeywords(args, keywds, "s|Oii", kwlist, &dsn, &factory, &async, &async_)) { return NULL; } if (async_) { async = async_; } Dprintf("psyco_connect: dsn = '%s', async = %d", dsn, async); /* allocate connection, fill with errors and return it */ if (factory == NULL || factory == Py_None) { factory = (PyObject *)&connectionType; } /* Here we are breaking the connection.__init__ interface defined * by psycopg2. So, if not requiring an async conn, avoid passing * the async parameter. */ /* TODO: would it be possible to avoid an additional parameter * to the conn constructor? A subclass? (but it would require mixins * to further subclass) Another dsn parameter (but is not really * a connection parameter that can be configured) */ if (!async) { conn = PyObject_CallFunction(factory, "s", dsn); } else { conn = PyObject_CallFunction(factory, "si", dsn, async); } return conn; } #define parse_dsn_doc \ "parse_dsn(dsn) -> dict -- parse a connection string into parameters" static PyObject * parse_dsn(PyObject *self, PyObject *args, PyObject *kwargs) { char *err = NULL; PQconninfoOption *options = NULL; PyObject *res = NULL, *dsn; static char *kwlist[] = {"dsn", NULL}; if (!PyArg_ParseTupleAndKeywords(args, kwargs, "O", kwlist, &dsn)) { return NULL; } Py_INCREF(dsn); /* for ensure_bytes */ if (!(dsn = psyco_ensure_bytes(dsn))) { goto exit; } options = PQconninfoParse(Bytes_AS_STRING(dsn), &err); if (options == NULL) { if (err != NULL) { PyErr_Format(ProgrammingError, "invalid dsn: %s", err); PQfreemem(err); } else { PyErr_SetString(OperationalError, "PQconninfoParse() failed"); } goto exit; } res = psyco_dict_from_conninfo_options(options, /* include_password = */ 1); exit: PQconninfoFree(options); /* safe on null */ Py_XDECREF(dsn); return res; } #define quote_ident_doc \ "quote_ident(str, conn_or_curs) -> str -- wrapper around PQescapeIdentifier\n\n" \ ":Parameters:\n" \ " * `str`: A bytes or unicode object\n" \ " * `conn_or_curs`: A connection or cursor, required" static PyObject * quote_ident(PyObject *self, PyObject *args, PyObject *kwargs) { PyObject *ident = NULL, *obj = NULL, *result = NULL; connectionObject *conn; char *quoted = NULL; static char *kwlist[] = {"ident", "scope", NULL}; if (!PyArg_ParseTupleAndKeywords(args, kwargs, "OO", kwlist, &ident, &obj)) { return NULL; } if (PyObject_TypeCheck(obj, &cursorType)) { conn = ((cursorObject*)obj)->conn; } else if (PyObject_TypeCheck(obj, &connectionType)) { conn = (connectionObject*)obj; } else { PyErr_SetString(PyExc_TypeError, "argument 2 must be a connection or a cursor"); return NULL; } Py_INCREF(ident); /* for ensure_bytes */ if (!(ident = psyco_ensure_bytes(ident))) { goto exit; } if (!(quoted = psyco_escape_identifier(conn, Bytes_AS_STRING(ident), Bytes_GET_SIZE(ident)))) { goto exit; } result = conn_text_from_chars(conn, quoted); exit: PQfreemem(quoted); Py_XDECREF(ident); return result; } /** type registration **/ #define register_type_doc \ "register_type(obj, conn_or_curs) -> None -- register obj with psycopg type system\n\n" \ ":Parameters:\n" \ " * `obj`: A type adapter created by `new_type()`\n" \ " * `conn_or_curs`: A connection, cursor or None" #define typecast_from_python_doc \ "new_type(oids, name, castobj) -> new type object\n\n" \ "Create a new binding object. The object can be used with the\n" \ "`register_type()` function to bind PostgreSQL objects to python objects.\n\n" \ ":Parameters:\n" \ " * `oids`: Tuple of ``oid`` of the PostgreSQL types to convert.\n" \ " * `name`: Name for the new type\n" \ " * `adapter`: Callable to perform type conversion.\n" \ " It must have the signature ``fun(value, cur)`` where ``value`` is\n" \ " the string representation returned by PostgreSQL (`!None` if ``NULL``)\n" \ " and ``cur`` is the cursor from which data are read." #define typecast_array_from_python_doc \ "new_array_type(oids, name, baseobj) -> new type object\n\n" \ "Create a new binding object to parse an array.\n\n" \ "The object can be used with `register_type()`.\n\n" \ ":Parameters:\n" \ " * `oids`: Tuple of ``oid`` of the PostgreSQL types to convert.\n" \ " * `name`: Name for the new type\n" \ " * `baseobj`: Adapter to perform type conversion of a single array item." static PyObject * register_type(PyObject *self, PyObject *args) { PyObject *type, *obj = NULL; if (!PyArg_ParseTuple(args, "O!|O", &typecastType, &type, &obj)) { return NULL; } if (obj != NULL && obj != Py_None) { if (PyObject_TypeCheck(obj, &cursorType)) { PyObject **dict = &(((cursorObject*)obj)->string_types); if (*dict == NULL) { if (!(*dict = PyDict_New())) { return NULL; } } if (0 > typecast_add(type, *dict, 0)) { return NULL; } } else if (PyObject_TypeCheck(obj, &connectionType)) { if (0 > typecast_add(type, ((connectionObject*)obj)->string_types, 0)) { return NULL; } } else { PyErr_SetString(PyExc_TypeError, "argument 2 must be a connection, cursor or None"); return NULL; } } else { if (0 > typecast_add(type, NULL, 0)) { return NULL; } } Py_RETURN_NONE; } /* Make sure libcrypto thread callbacks are set up. */ static void libcrypto_threads_init(void) { PyObject *m; Dprintf("psycopgmodule: configuring libpq libcrypto callbacks "); /* importing the ssl module sets up Python's libcrypto callbacks */ if ((m = PyImport_ImportModule("ssl"))) { /* disable libcrypto setup in libpq, so it won't stomp on the callbacks that have already been set up */ PQinitOpenSSL(1, 0); Py_DECREF(m); } else { /* might mean that Python has been compiled without OpenSSL support, fall back to relying on libpq's libcrypto locking */ PyErr_Clear(); } } /* Initialize the default adapters map * * Return 0 on success, else -1 and set an exception. */ RAISES_NEG static int adapters_init(PyObject *module) { PyObject *dict = NULL, *obj = NULL; int rv = -1; if (0 > microprotocols_init(module)) { goto exit; } Dprintf("psycopgmodule: initializing adapters"); if (0 > microprotocols_add(&PyFloat_Type, NULL, (PyObject*)&pfloatType)) { goto exit; } #if PY_2 if (0 > microprotocols_add(&PyInt_Type, NULL, (PyObject*)&pintType)) { goto exit; } #endif if (0 > microprotocols_add(&PyLong_Type, NULL, (PyObject*)&pintType)) { goto exit; } if (0 > microprotocols_add(&PyBool_Type, NULL, (PyObject*)&pbooleanType)) { goto exit; } /* strings */ #if PY_2 if (0 > microprotocols_add(&PyString_Type, NULL, (PyObject*)&qstringType)) { goto exit; } #endif if (0 > microprotocols_add(&PyUnicode_Type, NULL, (PyObject*)&qstringType)) { goto exit; } /* binary */ #if PY_2 if (0 > microprotocols_add(&PyBuffer_Type, NULL, (PyObject*)&binaryType)) { goto exit; } #else if (0 > microprotocols_add(&PyBytes_Type, NULL, (PyObject*)&binaryType)) { goto exit; } #endif if (0 > microprotocols_add(&PyByteArray_Type, NULL, (PyObject*)&binaryType)) { goto exit; } if (0 > microprotocols_add(&PyMemoryView_Type, NULL, (PyObject*)&binaryType)) { goto exit; } if (0 > microprotocols_add(&PyList_Type, NULL, (PyObject*)&listType)) { goto exit; } /* the module has already been initialized, so we can obtain the callable objects directly from its dictionary :) */ if (!(dict = PyModule_GetDict(module))) { goto exit; } if (!(obj = PyMapping_GetItemString(dict, "DateFromPy"))) { goto exit; } if (0 > microprotocols_add(PyDateTimeAPI->DateType, NULL, obj)) { goto exit; } Py_CLEAR(obj); if (!(obj = PyMapping_GetItemString(dict, "TimeFromPy"))) { goto exit; } if (0 > microprotocols_add(PyDateTimeAPI->TimeType, NULL, obj)) { goto exit; } Py_CLEAR(obj); if (!(obj = PyMapping_GetItemString(dict, "TimestampFromPy"))) { goto exit; } if (0 > microprotocols_add(PyDateTimeAPI->DateTimeType, NULL, obj)) { goto exit; } Py_CLEAR(obj); if (!(obj = PyMapping_GetItemString(dict, "IntervalFromPy"))) { goto exit; } if (0 > microprotocols_add(PyDateTimeAPI->DeltaType, NULL, obj)) { goto exit; } Py_CLEAR(obj); #ifdef HAVE_MXDATETIME /* As above, we use the callable objects from the psycopg module. These object are not be available at runtime if mx.DateTime import failed (e.g. it was available at build time but not at runtime). */ if (PyMapping_HasKeyString(dict, "TimestampFromMx")) { if (!(obj = PyMapping_GetItemString(dict, "TimestampFromMx"))) { goto exit; } if (0 > microprotocols_add(mxDateTime.DateTime_Type, NULL, obj)) { goto exit; } Py_CLEAR(obj); /* if we found the above, we have this too. */ if (!(obj = PyMapping_GetItemString(dict, "TimeFromMx"))) { goto exit; } if (0 > microprotocols_add(mxDateTime.DateTimeDelta_Type, NULL, obj)) { goto exit; } Py_CLEAR(obj); } #endif /* Success! */ rv = 0; exit: Py_XDECREF(obj); return rv; } #define libpq_version_doc "Query actual libpq version loaded." static PyObject* libpq_version(PyObject *self, PyObject *dummy) { return PyInt_FromLong(PQlibVersion()); } /* encrypt_password - Prepare the encrypted password form */ #define encrypt_password_doc \ "encrypt_password(password, user, [scope], [algorithm]) -- Prepares the encrypted form of a PostgreSQL password.\n\n" static PyObject * encrypt_password(PyObject *self, PyObject *args, PyObject *kwargs) { char *encrypted = NULL; PyObject *password = NULL, *user = NULL; PyObject *scope = Py_None, *algorithm = Py_None; PyObject *res = NULL; connectionObject *conn = NULL; static char *kwlist[] = {"password", "user", "scope", "algorithm", NULL}; if (!PyArg_ParseTupleAndKeywords(args, kwargs, "OO|OO", kwlist, &password, &user, &scope, &algorithm)) { return NULL; } /* for ensure_bytes */ Py_INCREF(user); Py_INCREF(password); Py_INCREF(algorithm); if (scope != Py_None) { if (PyObject_TypeCheck(scope, &cursorType)) { conn = ((cursorObject*)scope)->conn; } else if (PyObject_TypeCheck(scope, &connectionType)) { conn = (connectionObject*)scope; } else { PyErr_SetString(PyExc_TypeError, "the scope must be a connection or a cursor"); goto exit; } } if (!(user = psyco_ensure_bytes(user))) { goto exit; } if (!(password = psyco_ensure_bytes(password))) { goto exit; } if (algorithm != Py_None) { if (!(algorithm = psyco_ensure_bytes(algorithm))) { goto exit; } } /* If we have to encrypt md5 we can use the libpq < 10 API */ if (algorithm != Py_None && strcmp(Bytes_AS_STRING(algorithm), "md5") == 0) { encrypted = PQencryptPassword( Bytes_AS_STRING(password), Bytes_AS_STRING(user)); } /* If the algorithm is not md5 we have to use the API available from * libpq 10. */ else { #if PG_VERSION_NUM >= 100000 if (!conn) { PyErr_SetString(ProgrammingError, "password encryption (other than 'md5' algorithm)" " requires a connection or cursor"); goto exit; } /* TODO: algo = None will block: forbid on async/green conn? */ encrypted = PQencryptPasswordConn(conn->pgconn, Bytes_AS_STRING(password), Bytes_AS_STRING(user), algorithm != Py_None ? Bytes_AS_STRING(algorithm) : NULL); #else PyErr_SetString(NotSupportedError, "password encryption (other than 'md5' algorithm)" " requires libpq 10"); goto exit; #endif } if (encrypted) { res = Text_FromUTF8(encrypted); } else { const char *msg = PQerrorMessage(conn->pgconn); PyErr_Format(ProgrammingError, "password encryption failed: %s", msg ? msg : "no reason given"); goto exit; } exit: if (encrypted) { PQfreemem(encrypted); } Py_XDECREF(user); Py_XDECREF(password); Py_XDECREF(algorithm); return res; } /* Fill the module's postgresql<->python encoding table */ static struct { char *pgenc; char *pyenc; } enctable[] = { {"ABC", "cp1258"}, {"ALT", "cp866"}, {"BIG5", "big5"}, {"EUC_CN", "euccn"}, {"EUC_JIS_2004", "euc_jis_2004"}, {"EUC_JP", "euc_jp"}, {"EUC_KR", "euc_kr"}, {"GB18030", "gb18030"}, {"GBK", "gbk"}, {"ISO_8859_1", "iso8859_1"}, {"ISO_8859_2", "iso8859_2"}, {"ISO_8859_3", "iso8859_3"}, {"ISO_8859_5", "iso8859_5"}, {"ISO_8859_6", "iso8859_6"}, {"ISO_8859_7", "iso8859_7"}, {"ISO_8859_8", "iso8859_8"}, {"ISO_8859_9", "iso8859_9"}, {"ISO_8859_10", "iso8859_10"}, {"ISO_8859_13", "iso8859_13"}, {"ISO_8859_14", "iso8859_14"}, {"ISO_8859_15", "iso8859_15"}, {"ISO_8859_16", "iso8859_16"}, {"JOHAB", "johab"}, {"KOI8", "koi8_r"}, {"KOI8R", "koi8_r"}, {"KOI8U", "koi8_u"}, {"LATIN1", "iso8859_1"}, {"LATIN2", "iso8859_2"}, {"LATIN3", "iso8859_3"}, {"LATIN4", "iso8859_4"}, {"LATIN5", "iso8859_9"}, {"LATIN6", "iso8859_10"}, {"LATIN7", "iso8859_13"}, {"LATIN8", "iso8859_14"}, {"LATIN9", "iso8859_15"}, {"LATIN10", "iso8859_16"}, {"Mskanji", "cp932"}, {"ShiftJIS", "cp932"}, {"SHIFT_JIS_2004", "shift_jis_2004"}, {"SJIS", "cp932"}, {"SQL_ASCII", "ascii"}, /* XXX this is wrong: SQL_ASCII means "no * encoding" we should fix the unicode * typecaster to return a str or bytes in Py3 */ {"TCVN", "cp1258"}, {"TCVN5712", "cp1258"}, {"UHC", "cp949"}, {"UNICODE", "utf_8"}, /* Not valid in 8.2, backward compatibility */ {"UTF8", "utf_8"}, {"VSCII", "cp1258"}, {"WIN", "cp1251"}, {"WIN866", "cp866"}, {"WIN874", "cp874"}, {"WIN932", "cp932"}, {"WIN936", "gbk"}, {"WIN949", "cp949"}, {"WIN950", "cp950"}, {"WIN1250", "cp1250"}, {"WIN1251", "cp1251"}, {"WIN1252", "cp1252"}, {"WIN1253", "cp1253"}, {"WIN1254", "cp1254"}, {"WIN1255", "cp1255"}, {"WIN1256", "cp1256"}, {"WIN1257", "cp1257"}, {"WIN1258", "cp1258"}, {"Windows932", "cp932"}, {"Windows936", "gbk"}, {"Windows949", "cp949"}, {"Windows950", "cp950"}, /* those are missing from Python: */ /* {"EUC_TW", "?"}, */ /* {"MULE_INTERNAL", "?"}, */ {NULL, NULL} }; /* Initialize the encodings table. * * Return 0 on success, else -1 and set an exception. */ RAISES_NEG static int encodings_init(PyObject *module) { PyObject *value = NULL; int i; int rv = -1; Dprintf("psycopgmodule: initializing encodings table"); if (!(psycoEncodings = PyDict_New())) { goto exit; } Py_INCREF(psycoEncodings); if (0 > PyModule_AddObject(module, "encodings", psycoEncodings)) { Py_DECREF(psycoEncodings); goto exit; } for (i = 0; enctable[i].pgenc != NULL; i++) { if (!(value = Text_FromUTF8(enctable[i].pyenc))) { goto exit; } if (0 > PyDict_SetItemString( psycoEncodings, enctable[i].pgenc, value)) { goto exit; } Py_CLEAR(value); } rv = 0; exit: Py_XDECREF(value); return rv; } /* Initialize the module's exceptions and after that a dictionary with a full set of exceptions. */ PyObject *Error, *Warning, *InterfaceError, *DatabaseError, *InternalError, *OperationalError, *ProgrammingError, *IntegrityError, *DataError, *NotSupportedError; PyObject *QueryCanceledError, *TransactionRollbackError; /* mapping between exception names and their PyObject */ static struct { char *name; PyObject **exc; PyObject **base; const char *docstr; } exctable[] = { { "psycopg2.Error", &Error, NULL, Error_doc }, { "psycopg2.Warning", &Warning, NULL, Warning_doc }, { "psycopg2.InterfaceError", &InterfaceError, &Error, InterfaceError_doc }, { "psycopg2.DatabaseError", &DatabaseError, &Error, DatabaseError_doc }, { "psycopg2.InternalError", &InternalError, &DatabaseError, InternalError_doc }, { "psycopg2.OperationalError", &OperationalError, &DatabaseError, OperationalError_doc }, { "psycopg2.ProgrammingError", &ProgrammingError, &DatabaseError, ProgrammingError_doc }, { "psycopg2.IntegrityError", &IntegrityError, &DatabaseError, IntegrityError_doc }, { "psycopg2.DataError", &DataError, &DatabaseError, DataError_doc }, { "psycopg2.NotSupportedError", &NotSupportedError, &DatabaseError, NotSupportedError_doc }, { "psycopg2.extensions.QueryCanceledError", &QueryCanceledError, &OperationalError, QueryCanceledError_doc }, { "psycopg2.extensions.TransactionRollbackError", &TransactionRollbackError, &OperationalError, TransactionRollbackError_doc }, {NULL} /* Sentinel */ }; RAISES_NEG static int basic_errors_init(PyObject *module) { /* the names of the exceptions here reflect the organization of the psycopg2 module and not the fact the the original error objects live in _psycopg */ int i; PyObject *dict = NULL; PyObject *str = NULL; PyObject *errmodule = NULL; int rv = -1; Dprintf("psycopgmodule: initializing basic exceptions"); /* 'Error' has been defined elsewhere: only init the other classes */ Error = (PyObject *)&errorType; for (i = 1; exctable[i].name; i++) { if (!(dict = PyDict_New())) { goto exit; } if (exctable[i].docstr) { if (!(str = Text_FromUTF8(exctable[i].docstr))) { goto exit; } if (0 > PyDict_SetItemString(dict, "__doc__", str)) { goto exit; } Py_CLEAR(str); } /* can't put PyExc_StandardError in the static exctable: * windows build will fail */ if (!(*exctable[i].exc = PyErr_NewException( exctable[i].name, exctable[i].base ? *exctable[i].base : PyExc_StandardError, dict))) { goto exit; } Py_CLEAR(dict); } if (!(errmodule = PyImport_ImportModule("psycopg2.errors"))) { /* don't inject the exceptions into the errors module */ PyErr_Clear(); } for (i = 0; exctable[i].name; i++) { char *name; if (NULL == exctable[i].exc) { continue; } /* the name is the part after the last dot */ name = strrchr(exctable[i].name, '.'); name = name ? name + 1 : exctable[i].name; Py_INCREF(*exctable[i].exc); if (0 > PyModule_AddObject(module, name, *exctable[i].exc)) { Py_DECREF(*exctable[i].exc); goto exit; } if (errmodule) { Py_INCREF(*exctable[i].exc); if (0 > PyModule_AddObject(errmodule, name, *exctable[i].exc)) { Py_DECREF(*exctable[i].exc); goto exit; } } } rv = 0; exit: Py_XDECREF(errmodule); Py_XDECREF(str); Py_XDECREF(dict); return rv; } /* mapping between sqlstate and exception name */ static struct { char *sqlstate; char *name; } sqlstate_table[] = { #include "sqlstate_errors.h" {NULL} /* Sentinel */ }; RAISES_NEG static int sqlstate_errors_init(PyObject *module) { int i; char namebuf[120]; char prefix[] = "psycopg2.errors."; char *suffix; size_t bufsize; PyObject *exc = NULL; PyObject *errmodule = NULL; int rv = -1; Dprintf("psycopgmodule: initializing sqlstate exceptions"); if (sqlstate_errors) { PyErr_SetString(PyExc_SystemError, "sqlstate_errors_init(): already called"); goto exit; } if (!(errmodule = PyImport_ImportModule("psycopg2.errors"))) { /* don't inject the exceptions into the errors module */ PyErr_Clear(); } if (!(sqlstate_errors = PyDict_New())) { goto exit; } Py_INCREF(sqlstate_errors); if (0 > PyModule_AddObject(module, "sqlstate_errors", sqlstate_errors)) { Py_DECREF(sqlstate_errors); return -1; } strcpy(namebuf, prefix); suffix = namebuf + sizeof(prefix) - 1; bufsize = sizeof(namebuf) - sizeof(prefix) - 1; /* If this 0 gets deleted the buffer was too small. */ namebuf[sizeof(namebuf) - 1] = '\0'; for (i = 0; sqlstate_table[i].sqlstate; i++) { PyObject *base; base = base_exception_from_sqlstate(sqlstate_table[i].sqlstate); strncpy(suffix, sqlstate_table[i].name, bufsize); if (namebuf[sizeof(namebuf) - 1] != '\0') { PyErr_SetString( PyExc_SystemError, "sqlstate_errors_init(): buffer too small"); goto exit; } if (!(exc = PyErr_NewException(namebuf, base, NULL))) { goto exit; } if (0 > PyDict_SetItemString( sqlstate_errors, sqlstate_table[i].sqlstate, exc)) { goto exit; } /* Expose the exceptions to psycopg2.errors */ if (errmodule) { if (0 > PyModule_AddObject( errmodule, sqlstate_table[i].name, exc)) { goto exit; } else { exc = NULL; /* ref stolen by the module */ } } else { Py_CLEAR(exc); } } rv = 0; exit: Py_XDECREF(errmodule); Py_XDECREF(exc); return rv; } RAISES_NEG static int add_module_constants(PyObject *module) { PyObject *tmp; Dprintf("psycopgmodule: initializing module constants"); if (0 > PyModule_AddStringConstant(module, "__version__", xstr(PSYCOPG_VERSION))) { return -1; } if (0 > PyModule_AddStringConstant(module, "__doc__", "psycopg2 PostgreSQL driver")) { return -1; } if (0 > PyModule_AddIntConstant(module, "__libpq_version__", PG_VERSION_NUM)) { return -1; } if (0 > PyModule_AddObject(module, "apilevel", tmp = Text_FromUTF8(APILEVEL))) { Py_XDECREF(tmp); return -1; } if (0 > PyModule_AddObject(module, "threadsafety", tmp = PyInt_FromLong(THREADSAFETY))) { Py_XDECREF(tmp); return -1; } if (0 > PyModule_AddObject(module, "paramstyle", tmp = Text_FromUTF8(PARAMSTYLE))) { Py_XDECREF(tmp); return -1; } if (0 > PyModule_AddIntMacro(module, REPLICATION_PHYSICAL)) { return -1; } if (0 > PyModule_AddIntMacro(module, REPLICATION_LOGICAL)) { return -1; } return 0; } static struct { char *name; PyTypeObject *type; } typetable[] = { { "connection", &connectionType }, { "cursor", &cursorType }, { "ReplicationConnection", &replicationConnectionType }, { "ReplicationCursor", &replicationCursorType }, { "ReplicationMessage", &replicationMessageType }, { "ISQLQuote", &isqlquoteType }, { "Column", &columnType }, { "Notify", ¬ifyType }, { "Xid", &xidType }, { "ConnectionInfo", &connInfoType }, { "Diagnostics", &diagnosticsType }, { "AsIs", &asisType }, { "Binary", &binaryType }, { "Boolean", &pbooleanType }, { "Decimal", &pdecimalType }, { "Int", &pintType }, { "Float", &pfloatType }, { "List", &listType }, { "QuotedString", &qstringType }, { "lobject", &lobjectType }, {NULL} /* Sentinel */ }; RAISES_NEG static int add_module_types(PyObject *module) { int i; Dprintf("psycopgmodule: initializing module types"); for (i = 0; typetable[i].name; i++) { PyObject *type = (PyObject *)typetable[i].type; Py_TYPE(typetable[i].type) = &PyType_Type; if (0 > PyType_Ready(typetable[i].type)) { return -1; } Py_INCREF(type); if (0 > PyModule_AddObject(module, typetable[i].name, type)) { Py_DECREF(type); return -1; } } return 0; } RAISES_NEG static int datetime_init(void) { PyObject *dt = NULL; Dprintf("psycopgmodule: initializing datetime module"); /* import python builtin datetime module, if available */ if (!(dt = PyImport_ImportModule("datetime"))) { return -1; } Py_DECREF(dt); /* Initialize the PyDateTimeAPI everywhere is used */ PyDateTime_IMPORT; if (0 > adapter_datetime_init()) { return -1; } if (0 > repl_curs_datetime_init()) { return -1; } if (0 > replmsg_datetime_init()) { return -1; } Py_TYPE(&pydatetimeType) = &PyType_Type; if (0 > PyType_Ready(&pydatetimeType)) { return -1; } return 0; } RAISES_NEG static int mxdatetime_init(PyObject *module) { Dprintf("psycopgmodule: initializing mx.DateTime module"); #ifdef HAVE_MXDATETIME Py_TYPE(&mxdatetimeType) = &PyType_Type; if (0 > PyType_Ready(&mxdatetimeType)) { return -1; } if (mxDateTime_ImportModuleAndAPI()) { Dprintf("psycopgmodule: mx.DateTime module import failed"); PyErr_Clear(); } /* If we can't find mx.DateTime objects at runtime, * remove them from the module (and, as consequence, from the adapters). */ if (0 != psyco_adapter_mxdatetime_init()) { PyObject *dict; if (!(dict = PyModule_GetDict(module))) { return -1; } if (0 > PyDict_DelItemString(dict, "DateFromMx")) { return -1; } if (0 > PyDict_DelItemString(dict, "TimeFromMx")) { return -1; } if (0 > PyDict_DelItemString(dict, "TimestampFromMx")) { return -1; } if (0 > PyDict_DelItemString(dict, "IntervalFromMx")) { return -1; } } #endif return 0; } /** method table and module initialization **/ static PyMethodDef psycopgMethods[] = { {"_connect", (PyCFunction)psyco_connect, METH_VARARGS|METH_KEYWORDS, psyco_connect_doc}, {"parse_dsn", (PyCFunction)parse_dsn, METH_VARARGS|METH_KEYWORDS, parse_dsn_doc}, {"quote_ident", (PyCFunction)quote_ident, METH_VARARGS|METH_KEYWORDS, quote_ident_doc}, {"adapt", (PyCFunction)psyco_microprotocols_adapt, METH_VARARGS, psyco_microprotocols_adapt_doc}, {"register_type", (PyCFunction)register_type, METH_VARARGS, register_type_doc}, {"new_type", (PyCFunction)typecast_from_python, METH_VARARGS|METH_KEYWORDS, typecast_from_python_doc}, {"new_array_type", (PyCFunction)typecast_array_from_python, METH_VARARGS|METH_KEYWORDS, typecast_array_from_python_doc}, {"libpq_version", (PyCFunction)libpq_version, METH_NOARGS, libpq_version_doc}, {"Date", (PyCFunction)psyco_Date, METH_VARARGS, psyco_Date_doc}, {"Time", (PyCFunction)psyco_Time, METH_VARARGS, psyco_Time_doc}, {"Timestamp", (PyCFunction)psyco_Timestamp, METH_VARARGS, psyco_Timestamp_doc}, {"DateFromTicks", (PyCFunction)psyco_DateFromTicks, METH_VARARGS, psyco_DateFromTicks_doc}, {"TimeFromTicks", (PyCFunction)psyco_TimeFromTicks, METH_VARARGS, psyco_TimeFromTicks_doc}, {"TimestampFromTicks", (PyCFunction)psyco_TimestampFromTicks, METH_VARARGS, psyco_TimestampFromTicks_doc}, {"DateFromPy", (PyCFunction)psyco_DateFromPy, METH_VARARGS, psyco_DateFromPy_doc}, {"TimeFromPy", (PyCFunction)psyco_TimeFromPy, METH_VARARGS, psyco_TimeFromPy_doc}, {"TimestampFromPy", (PyCFunction)psyco_TimestampFromPy, METH_VARARGS, psyco_TimestampFromPy_doc}, {"IntervalFromPy", (PyCFunction)psyco_IntervalFromPy, METH_VARARGS, psyco_IntervalFromPy_doc}, #ifdef HAVE_MXDATETIME /* to be deleted if not found at import time */ {"DateFromMx", (PyCFunction)psyco_DateFromMx, METH_VARARGS, psyco_DateFromMx_doc}, {"TimeFromMx", (PyCFunction)psyco_TimeFromMx, METH_VARARGS, psyco_TimeFromMx_doc}, {"TimestampFromMx", (PyCFunction)psyco_TimestampFromMx, METH_VARARGS, psyco_TimestampFromMx_doc}, {"IntervalFromMx", (PyCFunction)psyco_IntervalFromMx, METH_VARARGS, psyco_IntervalFromMx_doc}, #endif {"set_wait_callback", (PyCFunction)psyco_set_wait_callback, METH_O, psyco_set_wait_callback_doc}, {"get_wait_callback", (PyCFunction)psyco_get_wait_callback, METH_NOARGS, psyco_get_wait_callback_doc}, {"encrypt_password", (PyCFunction)encrypt_password, METH_VARARGS|METH_KEYWORDS, encrypt_password_doc}, {NULL, NULL, 0, NULL} /* Sentinel */ }; #if PY_3 static struct PyModuleDef psycopgmodule = { PyModuleDef_HEAD_INIT, "_psycopg", NULL, -1, psycopgMethods, NULL, NULL, NULL, NULL }; #endif #ifndef PyMODINIT_FUNC /* declarations for DLL import/export */ #define PyMODINIT_FUNC void #endif PyMODINIT_FUNC INIT_MODULE(_psycopg)(void) { PyObject *module = NULL; #ifdef PSYCOPG_DEBUG if (getenv("PSYCOPG_DEBUG")) psycopg_debug_enabled = 1; #endif Dprintf("psycopgmodule: initializing psycopg %s", xstr(PSYCOPG_VERSION)); /* initialize libcrypto threading callbacks */ libcrypto_threads_init(); /* initialize types and objects not exposed to the module */ Py_TYPE(&typecastType) = &PyType_Type; if (0 > PyType_Ready(&typecastType)) { goto exit; } Py_TYPE(&chunkType) = &PyType_Type; if (0 > PyType_Ready(&chunkType)) { goto exit; } Py_TYPE(&errorType) = &PyType_Type; errorType.tp_base = (PyTypeObject *)PyExc_StandardError; if (0 > PyType_Ready(&errorType)) { goto exit; } if (!(psyco_null = Bytes_FromString("NULL"))) { goto exit; } /* initialize the module */ #if PY_2 module = Py_InitModule("_psycopg", psycopgMethods); #else module = PyModule_Create(&psycopgmodule); #endif if (!module) { goto exit; } if (0 > add_module_constants(module)) { goto exit; } if (0 > add_module_types(module)) { goto exit; } if (0 > datetime_init()) { goto exit; } if (0 > mxdatetime_init(module)) { goto exit; } if (0 > encodings_init(module)) { goto exit; } if (0 > typecast_init(module)) { goto exit; } if (0 > adapters_init(module)) { goto exit; } if (0 > basic_errors_init(module)) { goto exit; } if (0 > sqlstate_errors_init(module)) { goto exit; } Dprintf("psycopgmodule: module initialization complete"); exit: #if PY_3 return module; #else return; #endif }