#!/usr/bin/env python # test_connection.py - unit test for connection attributes # # Copyright (C) 2008-2011 James Henstridge # # 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. import os import sys import time import threading from operator import attrgetter import psycopg2 import psycopg2.errorcodes from psycopg2 import extensions as ext from testutils import ( unittest, decorate_all_tests, skip_if_no_superuser, skip_before_postgres, skip_after_postgres, skip_before_libpq, ConnectingTestCase, skip_if_tpc_disabled, skip_if_windows, slow) from testconfig import dsn, dbname class ConnectionTests(ConnectingTestCase): def test_closed_attribute(self): conn = self.conn self.assertEqual(conn.closed, False) conn.close() self.assertEqual(conn.closed, True) def test_close_idempotent(self): conn = self.conn conn.close() conn.close() self.assert_(conn.closed) def test_cursor_closed_attribute(self): conn = self.conn curs = conn.cursor() self.assertEqual(curs.closed, False) curs.close() self.assertEqual(curs.closed, True) # Closing the connection closes the cursor: curs = conn.cursor() conn.close() self.assertEqual(curs.closed, True) @skip_before_postgres(8, 4) @skip_if_no_superuser @skip_if_windows def test_cleanup_on_badconn_close(self): # ticket #148 conn = self.conn cur = conn.cursor() self.assertRaises(psycopg2.OperationalError, cur.execute, "select pg_terminate_backend(pg_backend_pid())") self.assertEqual(conn.closed, 2) conn.close() self.assertEqual(conn.closed, 1) def test_reset(self): conn = self.conn # switch session characteristics conn.autocommit = True conn.isolation_level = 'serializable' conn.readonly = True if self.conn.server_version >= 90100: conn.deferrable = False self.assert_(conn.autocommit) self.assertEqual(conn.isolation_level, ext.ISOLATION_LEVEL_SERIALIZABLE) self.assert_(conn.readonly is True) if self.conn.server_version >= 90100: self.assert_(conn.deferrable is False) conn.reset() # now the session characteristics should be reverted self.assert_(not conn.autocommit) self.assertEqual(conn.isolation_level, ext.ISOLATION_LEVEL_DEFAULT) self.assert_(conn.readonly is None) if self.conn.server_version >= 90100: self.assert_(conn.deferrable is None) def test_notices(self): conn = self.conn cur = conn.cursor() if self.conn.server_version >= 90300: cur.execute("set client_min_messages=debug1") cur.execute("create temp table chatty (id serial primary key);") self.assertEqual("CREATE TABLE", cur.statusmessage) self.assert_(conn.notices) def test_notices_consistent_order(self): conn = self.conn cur = conn.cursor() if self.conn.server_version >= 90300: cur.execute("set client_min_messages=debug1") cur.execute(""" create temp table table1 (id serial); create temp table table2 (id serial); """) cur.execute(""" create temp table table3 (id serial); create temp table table4 (id serial); """) self.assertEqual(4, len(conn.notices)) self.assert_('table1' in conn.notices[0]) self.assert_('table2' in conn.notices[1]) self.assert_('table3' in conn.notices[2]) self.assert_('table4' in conn.notices[3]) @slow def test_notices_limited(self): conn = self.conn cur = conn.cursor() if self.conn.server_version >= 90300: cur.execute("set client_min_messages=debug1") for i in range(0, 100, 10): sql = " ".join(["create temp table table%d (id serial);" % j for j in range(i, i + 10)]) cur.execute(sql) self.assertEqual(50, len(conn.notices)) self.assert_('table99' in conn.notices[-1], conn.notices[-1]) @slow def test_notices_deque(self): from collections import deque conn = self.conn self.conn.notices = deque() cur = conn.cursor() if self.conn.server_version >= 90300: cur.execute("set client_min_messages=debug1") cur.execute(""" create temp table table1 (id serial); create temp table table2 (id serial); """) cur.execute(""" create temp table table3 (id serial); create temp table table4 (id serial);""") self.assertEqual(len(conn.notices), 4) self.assert_('table1' in conn.notices.popleft()) self.assert_('table2' in conn.notices.popleft()) self.assert_('table3' in conn.notices.popleft()) self.assert_('table4' in conn.notices.popleft()) self.assertEqual(len(conn.notices), 0) # not limited, but no error for i in range(0, 100, 10): sql = " ".join(["create temp table table2_%d (id serial);" % j for j in range(i, i + 10)]) cur.execute(sql) self.assertEqual(len([n for n in conn.notices if 'CREATE TABLE' in n]), 100) def test_notices_noappend(self): conn = self.conn self.conn.notices = None # will make an error swallowes ok cur = conn.cursor() if self.conn.server_version >= 90300: cur.execute("set client_min_messages=debug1") cur.execute("create temp table table1 (id serial);") self.assertEqual(self.conn.notices, None) def test_server_version(self): self.assert_(self.conn.server_version) def test_protocol_version(self): self.assert_(self.conn.protocol_version in (2, 3), self.conn.protocol_version) def test_tpc_unsupported(self): cnn = self.conn if cnn.server_version >= 80100: return self.skipTest("tpc is supported") self.assertRaises(psycopg2.NotSupportedError, cnn.xid, 42, "foo", "bar") @slow @skip_before_postgres(8, 2) def test_concurrent_execution(self): def slave(): cnn = self.connect() cur = cnn.cursor() cur.execute("select pg_sleep(4)") cur.close() cnn.close() t1 = threading.Thread(target=slave) t2 = threading.Thread(target=slave) t0 = time.time() t1.start() t2.start() t1.join() t2.join() self.assert_(time.time() - t0 < 7, "something broken in concurrency") def test_encoding_name(self): self.conn.set_client_encoding("EUC_JP") # conn.encoding is 'EUCJP' now. cur = self.conn.cursor() ext.register_type(ext.UNICODE, cur) cur.execute("select 'foo'::text;") self.assertEqual(cur.fetchone()[0], u'foo') def test_connect_nonnormal_envvar(self): # We must perform encoding normalization at connection time self.conn.close() oldenc = os.environ.get('PGCLIENTENCODING') os.environ['PGCLIENTENCODING'] = 'utf-8' # malformed spelling try: self.conn = self.connect() finally: if oldenc is not None: os.environ['PGCLIENTENCODING'] = oldenc else: del os.environ['PGCLIENTENCODING'] def test_weakref(self): from weakref import ref import gc conn = psycopg2.connect(dsn) w = ref(conn) conn.close() del conn gc.collect() self.assert_(w() is None) @slow def test_commit_concurrency(self): # The problem is the one reported in ticket #103. Because of bad # status check, we commit even when a commit is already on its way. # We can detect this condition by the warnings. conn = self.conn notices = [] stop = [] def committer(): while not stop: conn.commit() while conn.notices: notices.append((2, conn.notices.pop())) cur = conn.cursor() t1 = threading.Thread(target=committer) t1.start() i = 1 for i in range(1000): cur.execute("select %s;", (i,)) conn.commit() while conn.notices: notices.append((1, conn.notices.pop())) # Stop the committer thread stop.append(True) self.assert_(not notices, "%d notices raised" % len(notices)) def test_connect_cursor_factory(self): import psycopg2.extras conn = self.connect(cursor_factory=psycopg2.extras.DictCursor) cur = conn.cursor() cur.execute("select 1 as a") self.assertEqual(cur.fetchone()['a'], 1) def test_cursor_factory(self): self.assertEqual(self.conn.cursor_factory, None) cur = self.conn.cursor() cur.execute("select 1 as a") self.assertRaises(TypeError, (lambda r: r['a']), cur.fetchone()) self.conn.cursor_factory = psycopg2.extras.DictCursor self.assertEqual(self.conn.cursor_factory, psycopg2.extras.DictCursor) cur = self.conn.cursor() cur.execute("select 1 as a") self.assertEqual(cur.fetchone()['a'], 1) self.conn.cursor_factory = None self.assertEqual(self.conn.cursor_factory, None) cur = self.conn.cursor() cur.execute("select 1 as a") self.assertRaises(TypeError, (lambda r: r['a']), cur.fetchone()) def test_cursor_factory_none(self): # issue #210 conn = self.connect() cur = conn.cursor(cursor_factory=None) self.assertEqual(type(cur), ext.cursor) conn = self.connect(cursor_factory=psycopg2.extras.DictCursor) cur = conn.cursor(cursor_factory=None) self.assertEqual(type(cur), psycopg2.extras.DictCursor) def test_failed_init_status(self): class SubConnection(ext.connection): def __init__(self, dsn): try: super(SubConnection, self).__init__(dsn) except Exception: pass c = SubConnection("dbname=thereisnosuchdatabasemate password=foobar") self.assert_(c.closed, "connection failed so it must be closed") self.assert_('foobar' not in c.dsn, "password was not obscured") class ParseDsnTestCase(ConnectingTestCase): def test_parse_dsn(self): from psycopg2 import ProgrammingError self.assertEqual( ext.parse_dsn('dbname=test user=tester password=secret'), dict(user='tester', password='secret', dbname='test'), "simple DSN parsed") self.assertRaises(ProgrammingError, ext.parse_dsn, "dbname=test 2 user=tester password=secret") self.assertEqual( ext.parse_dsn("dbname='test 2' user=tester password=secret"), dict(user='tester', password='secret', dbname='test 2'), "DSN with quoting parsed") # Can't really use assertRaisesRegexp() here since we need to # make sure that secret is *not* exposed in the error messgage # (and it also requires python >= 2.7). raised = False try: # unterminated quote after dbname: ext.parse_dsn("dbname='test 2 user=tester password=secret") except ProgrammingError, e: raised = True self.assertTrue(str(e).find('secret') < 0, "DSN was not exposed in error message") except e: self.fail("unexpected error condition: " + repr(e)) self.assertTrue(raised, "ProgrammingError raised due to invalid DSN") @skip_before_libpq(9, 2) def test_parse_dsn_uri(self): self.assertEqual(ext.parse_dsn('postgresql://tester:secret@/test'), dict(user='tester', password='secret', dbname='test'), "valid URI dsn parsed") raised = False try: # extra '=' after port value ext.parse_dsn(dsn='postgresql://tester:secret@/test?port=1111=x') except psycopg2.ProgrammingError, e: raised = True self.assertTrue(str(e).find('secret') < 0, "URI was not exposed in error message") except e: self.fail("unexpected error condition: " + repr(e)) self.assertTrue(raised, "ProgrammingError raised due to invalid URI") def test_unicode_value(self): snowman = u"\u2603" d = ext.parse_dsn('dbname=' + snowman) if sys.version_info[0] < 3: self.assertEqual(d['dbname'], snowman.encode('utf8')) else: self.assertEqual(d['dbname'], snowman) def test_unicode_key(self): snowman = u"\u2603" self.assertRaises(psycopg2.ProgrammingError, ext.parse_dsn, snowman + '=' + snowman) def test_bad_param(self): self.assertRaises(TypeError, ext.parse_dsn, None) self.assertRaises(TypeError, ext.parse_dsn, 42) class MakeDsnTestCase(ConnectingTestCase): def test_empty_arguments(self): self.assertEqual(ext.make_dsn(), '') def test_empty_string(self): dsn = ext.make_dsn('') self.assertEqual(dsn, '') def test_params_validation(self): self.assertRaises(psycopg2.ProgrammingError, ext.make_dsn, 'dbnamo=a') self.assertRaises(psycopg2.ProgrammingError, ext.make_dsn, dbnamo='a') self.assertRaises(psycopg2.ProgrammingError, ext.make_dsn, 'dbname=a', nosuchparam='b') def test_empty_param(self): dsn = ext.make_dsn(dbname='sony', password='') self.assertDsnEqual(dsn, "dbname=sony password=''") def test_escape(self): dsn = ext.make_dsn(dbname='hello world') self.assertEqual(dsn, "dbname='hello world'") dsn = ext.make_dsn(dbname=r'back\slash') self.assertEqual(dsn, r"dbname=back\\slash") dsn = ext.make_dsn(dbname="quo'te") self.assertEqual(dsn, r"dbname=quo\'te") dsn = ext.make_dsn(dbname="with\ttab") self.assertEqual(dsn, "dbname='with\ttab'") dsn = ext.make_dsn(dbname=r"\every thing'") self.assertEqual(dsn, r"dbname='\\every thing\''") def test_database_is_a_keyword(self): self.assertEqual(ext.make_dsn(database='sigh'), "dbname=sigh") def test_params_merging(self): dsn = ext.make_dsn('dbname=foo host=bar', host='baz') self.assertDsnEqual(dsn, 'dbname=foo host=baz') dsn = ext.make_dsn('dbname=foo', user='postgres') self.assertDsnEqual(dsn, 'dbname=foo user=postgres') def test_no_dsn_munging(self): dsnin = 'dbname=a host=b user=c password=d' dsn = ext.make_dsn(dsnin) self.assertEqual(dsn, dsnin) def test_null_args(self): dsn = ext.make_dsn("dbname=foo", user="bar", password=None) self.assertDsnEqual(dsn, "dbname=foo user=bar") @skip_before_libpq(9, 2) def test_url_is_cool(self): url = 'postgresql://tester:secret@/test?application_name=wat' dsn = ext.make_dsn(url) self.assertEqual(dsn, url) dsn = ext.make_dsn(url, application_name='woot') self.assertDsnEqual(dsn, 'dbname=test user=tester password=secret application_name=woot') self.assertRaises(psycopg2.ProgrammingError, ext.make_dsn, 'postgresql://tester:secret@/test?nosuch=param') self.assertRaises(psycopg2.ProgrammingError, ext.make_dsn, url, nosuch="param") @skip_before_libpq(9, 3) def test_get_dsn_parameters(self): conn = self.connect() d = conn.get_dsn_parameters() self.assertEqual(d['dbname'], dbname) # the only param we can check reliably self.assert_('password' not in d, d) class IsolationLevelsTestCase(ConnectingTestCase): def setUp(self): ConnectingTestCase.setUp(self) conn = self.connect() cur = conn.cursor() try: cur.execute("drop table isolevel;") except psycopg2.ProgrammingError: conn.rollback() cur.execute("create table isolevel (id integer);") conn.commit() conn.close() def test_isolation_level(self): conn = self.connect() self.assertEqual( conn.isolation_level, ext.ISOLATION_LEVEL_DEFAULT) def test_encoding(self): conn = self.connect() self.assert_(conn.encoding in ext.encodings) def test_set_isolation_level(self): conn = self.connect() curs = conn.cursor() levels = [ ('read uncommitted', ext.ISOLATION_LEVEL_READ_UNCOMMITTED), ('read committed', ext.ISOLATION_LEVEL_READ_COMMITTED), ('repeatable read', ext.ISOLATION_LEVEL_REPEATABLE_READ), ('serializable', ext.ISOLATION_LEVEL_SERIALIZABLE), ] for name, level in levels: conn.set_isolation_level(level) # the only values available on prehistoric PG versions if conn.server_version < 80000: if level in ( ext.ISOLATION_LEVEL_READ_UNCOMMITTED, ext.ISOLATION_LEVEL_REPEATABLE_READ): name, level = levels[levels.index((name, level)) + 1] self.assertEqual(conn.isolation_level, level) curs.execute('show transaction_isolation;') got_name = curs.fetchone()[0] self.assertEqual(name, got_name) conn.commit() self.assertRaises(ValueError, conn.set_isolation_level, -1) self.assertRaises(ValueError, conn.set_isolation_level, 5) def test_set_isolation_level_autocommit(self): conn = self.connect() curs = conn.cursor() conn.set_isolation_level(ext.ISOLATION_LEVEL_AUTOCOMMIT) self.assertEqual(conn.isolation_level, ext.ISOLATION_LEVEL_DEFAULT) self.assert_(conn.autocommit) conn.isolation_level = 'serializable' self.assertEqual(conn.isolation_level, ext.ISOLATION_LEVEL_SERIALIZABLE) self.assert_(conn.autocommit) curs.execute('show transaction_isolation;') self.assertEqual(curs.fetchone()[0], 'serializable') def test_set_isolation_level_default(self): conn = self.connect() curs = conn.cursor() conn.autocommit = True curs.execute("set default_transaction_isolation to 'read committed'") conn.autocommit = False conn.set_isolation_level(ext.ISOLATION_LEVEL_SERIALIZABLE) self.assertEqual(conn.isolation_level, ext.ISOLATION_LEVEL_SERIALIZABLE) curs.execute("show transaction_isolation") self.assertEqual(curs.fetchone()[0], "serializable") conn.rollback() conn.set_isolation_level(ext.ISOLATION_LEVEL_DEFAULT) curs.execute("show transaction_isolation") self.assertEqual(curs.fetchone()[0], "read committed") def test_set_isolation_level_abort(self): conn = self.connect() cur = conn.cursor() self.assertEqual(ext.TRANSACTION_STATUS_IDLE, conn.get_transaction_status()) cur.execute("insert into isolevel values (10);") self.assertEqual(ext.TRANSACTION_STATUS_INTRANS, conn.get_transaction_status()) conn.set_isolation_level( psycopg2.extensions.ISOLATION_LEVEL_SERIALIZABLE) self.assertEqual(psycopg2.extensions.TRANSACTION_STATUS_IDLE, conn.get_transaction_status()) cur.execute("select count(*) from isolevel;") self.assertEqual(0, cur.fetchone()[0]) cur.execute("insert into isolevel values (10);") self.assertEqual(psycopg2.extensions.TRANSACTION_STATUS_INTRANS, conn.get_transaction_status()) conn.set_isolation_level( psycopg2.extensions.ISOLATION_LEVEL_AUTOCOMMIT) self.assertEqual(psycopg2.extensions.TRANSACTION_STATUS_IDLE, conn.get_transaction_status()) cur.execute("select count(*) from isolevel;") self.assertEqual(0, cur.fetchone()[0]) cur.execute("insert into isolevel values (10);") self.assertEqual(psycopg2.extensions.TRANSACTION_STATUS_IDLE, conn.get_transaction_status()) conn.set_isolation_level( psycopg2.extensions.ISOLATION_LEVEL_READ_COMMITTED) self.assertEqual(psycopg2.extensions.TRANSACTION_STATUS_IDLE, conn.get_transaction_status()) cur.execute("select count(*) from isolevel;") self.assertEqual(1, cur.fetchone()[0]) self.assertEqual(conn.isolation_level, psycopg2.extensions.ISOLATION_LEVEL_READ_COMMITTED) def test_isolation_level_autocommit(self): cnn1 = self.connect() cnn2 = self.connect() cnn2.set_isolation_level(ext.ISOLATION_LEVEL_AUTOCOMMIT) cur1 = cnn1.cursor() cur1.execute("select count(*) from isolevel;") self.assertEqual(0, cur1.fetchone()[0]) cnn1.commit() cur2 = cnn2.cursor() cur2.execute("insert into isolevel values (10);") cur1.execute("select count(*) from isolevel;") self.assertEqual(1, cur1.fetchone()[0]) def test_isolation_level_read_committed(self): cnn1 = self.connect() cnn2 = self.connect() cnn2.set_isolation_level(ext.ISOLATION_LEVEL_READ_COMMITTED) cur1 = cnn1.cursor() cur1.execute("select count(*) from isolevel;") self.assertEqual(0, cur1.fetchone()[0]) cnn1.commit() cur2 = cnn2.cursor() cur2.execute("insert into isolevel values (10);") cur1.execute("insert into isolevel values (20);") cur2.execute("select count(*) from isolevel;") self.assertEqual(1, cur2.fetchone()[0]) cnn1.commit() cur2.execute("select count(*) from isolevel;") self.assertEqual(2, cur2.fetchone()[0]) cur1.execute("select count(*) from isolevel;") self.assertEqual(1, cur1.fetchone()[0]) cnn2.commit() cur1.execute("select count(*) from isolevel;") self.assertEqual(2, cur1.fetchone()[0]) def test_isolation_level_serializable(self): cnn1 = self.connect() cnn2 = self.connect() cnn2.set_isolation_level(ext.ISOLATION_LEVEL_SERIALIZABLE) cur1 = cnn1.cursor() cur1.execute("select count(*) from isolevel;") self.assertEqual(0, cur1.fetchone()[0]) cnn1.commit() cur2 = cnn2.cursor() cur2.execute("insert into isolevel values (10);") cur1.execute("insert into isolevel values (20);") cur2.execute("select count(*) from isolevel;") self.assertEqual(1, cur2.fetchone()[0]) cnn1.commit() cur2.execute("select count(*) from isolevel;") self.assertEqual(1, cur2.fetchone()[0]) cur1.execute("select count(*) from isolevel;") self.assertEqual(1, cur1.fetchone()[0]) cnn2.commit() cur1.execute("select count(*) from isolevel;") self.assertEqual(2, cur1.fetchone()[0]) cur2.execute("select count(*) from isolevel;") self.assertEqual(2, cur2.fetchone()[0]) def test_isolation_level_closed(self): cnn = self.connect() cnn.close() self.assertRaises(psycopg2.InterfaceError, cnn.set_isolation_level, 0) self.assertRaises(psycopg2.InterfaceError, cnn.set_isolation_level, 1) def test_setattr_isolation_level_int(self): cur = self.conn.cursor() self.conn.isolation_level = ext.ISOLATION_LEVEL_SERIALIZABLE self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_SERIALIZABLE) cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'serializable') self.conn.rollback() self.conn.isolation_level = ext.ISOLATION_LEVEL_REPEATABLE_READ cur.execute("SHOW transaction_isolation;") if self.conn.server_version > 80000: self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_REPEATABLE_READ) self.assertEqual(cur.fetchone()[0], 'repeatable read') else: self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_SERIALIZABLE) self.assertEqual(cur.fetchone()[0], 'serializable') self.conn.rollback() self.conn.isolation_level = ext.ISOLATION_LEVEL_READ_COMMITTED self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_READ_COMMITTED) cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'read committed') self.conn.rollback() self.conn.isolation_level = ext.ISOLATION_LEVEL_READ_UNCOMMITTED cur.execute("SHOW transaction_isolation;") if self.conn.server_version > 80000: self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_READ_UNCOMMITTED) self.assertEqual(cur.fetchone()[0], 'read uncommitted') else: self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_READ_COMMITTED) self.assertEqual(cur.fetchone()[0], 'read committed') self.conn.rollback() self.assertEqual(ext.ISOLATION_LEVEL_DEFAULT, None) self.conn.isolation_level = ext.ISOLATION_LEVEL_DEFAULT self.assertEqual(self.conn.isolation_level, None) cur.execute("SHOW transaction_isolation;") isol = cur.fetchone()[0] cur.execute("SHOW default_transaction_isolation;") self.assertEqual(cur.fetchone()[0], isol) def test_setattr_isolation_level_str(self): cur = self.conn.cursor() self.conn.isolation_level = "serializable" self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_SERIALIZABLE) cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'serializable') self.conn.rollback() self.conn.isolation_level = "repeatable read" cur.execute("SHOW transaction_isolation;") if self.conn.server_version > 80000: self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_REPEATABLE_READ) self.assertEqual(cur.fetchone()[0], 'repeatable read') else: self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_SERIALIZABLE) self.assertEqual(cur.fetchone()[0], 'serializable') self.conn.rollback() self.conn.isolation_level = "read committed" self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_READ_COMMITTED) cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'read committed') self.conn.rollback() self.conn.isolation_level = "read uncommitted" cur.execute("SHOW transaction_isolation;") if self.conn.server_version > 80000: self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_READ_UNCOMMITTED) self.assertEqual(cur.fetchone()[0], 'read uncommitted') else: self.assertEqual(self.conn.isolation_level, ext.ISOLATION_LEVEL_READ_COMMITTED) self.assertEqual(cur.fetchone()[0], 'read committed') self.conn.rollback() self.conn.isolation_level = "default" self.assertEqual(self.conn.isolation_level, None) cur.execute("SHOW transaction_isolation;") isol = cur.fetchone()[0] cur.execute("SHOW default_transaction_isolation;") self.assertEqual(cur.fetchone()[0], isol) def test_setattr_isolation_level_invalid(self): self.assertRaises(ValueError, setattr, self.conn, 'isolation_level', 0) self.assertRaises(ValueError, setattr, self.conn, 'isolation_level', -1) self.assertRaises(ValueError, setattr, self.conn, 'isolation_level', 5) self.assertRaises(ValueError, setattr, self.conn, 'isolation_level', 'bah') class ConnectionTwoPhaseTests(ConnectingTestCase): def setUp(self): ConnectingTestCase.setUp(self) self.make_test_table() self.clear_test_xacts() def tearDown(self): self.clear_test_xacts() ConnectingTestCase.tearDown(self) def clear_test_xacts(self): """Rollback all the prepared transaction in the testing db.""" cnn = self.connect() cnn.set_isolation_level(0) cur = cnn.cursor() try: cur.execute( "select gid from pg_prepared_xacts where database = %s", (dbname,)) except psycopg2.ProgrammingError: cnn.rollback() cnn.close() return gids = [r[0] for r in cur] for gid in gids: cur.execute("rollback prepared %s;", (gid,)) cnn.close() def make_test_table(self): cnn = self.connect() cur = cnn.cursor() try: cur.execute("DROP TABLE test_tpc;") except psycopg2.ProgrammingError: cnn.rollback() cur.execute("CREATE TABLE test_tpc (data text);") cnn.commit() cnn.close() def count_xacts(self): """Return the number of prepared xacts currently in the test db.""" cnn = self.connect() cur = cnn.cursor() cur.execute(""" select count(*) from pg_prepared_xacts where database = %s;""", (dbname,)) rv = cur.fetchone()[0] cnn.close() return rv def count_test_records(self): """Return the number of records in the test table.""" cnn = self.connect() cur = cnn.cursor() cur.execute("select count(*) from test_tpc;") rv = cur.fetchone()[0] cnn.close() return rv def test_tpc_commit(self): cnn = self.connect() xid = cnn.xid(1, "gtrid", "bqual") self.assertEqual(cnn.status, ext.STATUS_READY) cnn.tpc_begin(xid) self.assertEqual(cnn.status, ext.STATUS_BEGIN) cur = cnn.cursor() cur.execute("insert into test_tpc values ('test_tpc_commit');") self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn.tpc_prepare() self.assertEqual(cnn.status, ext.STATUS_PREPARED) self.assertEqual(1, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn.tpc_commit() self.assertEqual(cnn.status, ext.STATUS_READY) self.assertEqual(0, self.count_xacts()) self.assertEqual(1, self.count_test_records()) def test_tpc_commit_one_phase(self): cnn = self.connect() xid = cnn.xid(1, "gtrid", "bqual") self.assertEqual(cnn.status, ext.STATUS_READY) cnn.tpc_begin(xid) self.assertEqual(cnn.status, ext.STATUS_BEGIN) cur = cnn.cursor() cur.execute("insert into test_tpc values ('test_tpc_commit_1p');") self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn.tpc_commit() self.assertEqual(cnn.status, ext.STATUS_READY) self.assertEqual(0, self.count_xacts()) self.assertEqual(1, self.count_test_records()) def test_tpc_commit_recovered(self): cnn = self.connect() xid = cnn.xid(1, "gtrid", "bqual") self.assertEqual(cnn.status, ext.STATUS_READY) cnn.tpc_begin(xid) self.assertEqual(cnn.status, ext.STATUS_BEGIN) cur = cnn.cursor() cur.execute("insert into test_tpc values ('test_tpc_commit_rec');") self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn.tpc_prepare() cnn.close() self.assertEqual(1, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn = self.connect() xid = cnn.xid(1, "gtrid", "bqual") cnn.tpc_commit(xid) self.assertEqual(cnn.status, ext.STATUS_READY) self.assertEqual(0, self.count_xacts()) self.assertEqual(1, self.count_test_records()) def test_tpc_rollback(self): cnn = self.connect() xid = cnn.xid(1, "gtrid", "bqual") self.assertEqual(cnn.status, ext.STATUS_READY) cnn.tpc_begin(xid) self.assertEqual(cnn.status, ext.STATUS_BEGIN) cur = cnn.cursor() cur.execute("insert into test_tpc values ('test_tpc_rollback');") self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn.tpc_prepare() self.assertEqual(cnn.status, ext.STATUS_PREPARED) self.assertEqual(1, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn.tpc_rollback() self.assertEqual(cnn.status, ext.STATUS_READY) self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) def test_tpc_rollback_one_phase(self): cnn = self.connect() xid = cnn.xid(1, "gtrid", "bqual") self.assertEqual(cnn.status, ext.STATUS_READY) cnn.tpc_begin(xid) self.assertEqual(cnn.status, ext.STATUS_BEGIN) cur = cnn.cursor() cur.execute("insert into test_tpc values ('test_tpc_rollback_1p');") self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn.tpc_rollback() self.assertEqual(cnn.status, ext.STATUS_READY) self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) def test_tpc_rollback_recovered(self): cnn = self.connect() xid = cnn.xid(1, "gtrid", "bqual") self.assertEqual(cnn.status, ext.STATUS_READY) cnn.tpc_begin(xid) self.assertEqual(cnn.status, ext.STATUS_BEGIN) cur = cnn.cursor() cur.execute("insert into test_tpc values ('test_tpc_commit_rec');") self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn.tpc_prepare() cnn.close() self.assertEqual(1, self.count_xacts()) self.assertEqual(0, self.count_test_records()) cnn = self.connect() xid = cnn.xid(1, "gtrid", "bqual") cnn.tpc_rollback(xid) self.assertEqual(cnn.status, ext.STATUS_READY) self.assertEqual(0, self.count_xacts()) self.assertEqual(0, self.count_test_records()) def test_status_after_recover(self): cnn = self.connect() self.assertEqual(ext.STATUS_READY, cnn.status) cnn.tpc_recover() self.assertEqual(ext.STATUS_READY, cnn.status) cur = cnn.cursor() cur.execute("select 1") self.assertEqual(ext.STATUS_BEGIN, cnn.status) cnn.tpc_recover() self.assertEqual(ext.STATUS_BEGIN, cnn.status) def test_recovered_xids(self): # insert a few test xns cnn = self.connect() cnn.set_isolation_level(0) cur = cnn.cursor() cur.execute("begin; prepare transaction '1-foo';") cur.execute("begin; prepare transaction '2-bar';") # read the values to return cur.execute(""" select gid, prepared, owner, database from pg_prepared_xacts where database = %s;""", (dbname,)) okvals = cur.fetchall() okvals.sort() cnn = self.connect() xids = cnn.tpc_recover() xids = [xid for xid in xids if xid.database == dbname] xids.sort(key=attrgetter('gtrid')) # check the values returned self.assertEqual(len(okvals), len(xids)) for (xid, (gid, prepared, owner, database)) in zip(xids, okvals): self.assertEqual(xid.gtrid, gid) self.assertEqual(xid.prepared, prepared) self.assertEqual(xid.owner, owner) self.assertEqual(xid.database, database) def test_xid_encoding(self): cnn = self.connect() xid = cnn.xid(42, "gtrid", "bqual") cnn.tpc_begin(xid) cnn.tpc_prepare() cnn = self.connect() cur = cnn.cursor() cur.execute("select gid from pg_prepared_xacts where database = %s;", (dbname,)) self.assertEqual('42_Z3RyaWQ=_YnF1YWw=', cur.fetchone()[0]) @slow def test_xid_roundtrip(self): for fid, gtrid, bqual in [ (0, "", ""), (42, "gtrid", "bqual"), (0x7fffffff, "x" * 64, "y" * 64), ]: cnn = self.connect() xid = cnn.xid(fid, gtrid, bqual) cnn.tpc_begin(xid) cnn.tpc_prepare() cnn.close() cnn = self.connect() xids = [x for x in cnn.tpc_recover() if x.database == dbname] self.assertEqual(1, len(xids)) xid = xids[0] self.assertEqual(xid.format_id, fid) self.assertEqual(xid.gtrid, gtrid) self.assertEqual(xid.bqual, bqual) cnn.tpc_rollback(xid) @slow def test_unparsed_roundtrip(self): for tid in [ '', 'hello, world!', 'x' * 199, # PostgreSQL's limit in transaction id length ]: cnn = self.connect() cnn.tpc_begin(tid) cnn.tpc_prepare() cnn.close() cnn = self.connect() xids = [x for x in cnn.tpc_recover() if x.database == dbname] self.assertEqual(1, len(xids)) xid = xids[0] self.assertEqual(xid.format_id, None) self.assertEqual(xid.gtrid, tid) self.assertEqual(xid.bqual, None) cnn.tpc_rollback(xid) def test_xid_construction(self): from psycopg2.extensions import Xid x1 = Xid(74, 'foo', 'bar') self.assertEqual(74, x1.format_id) self.assertEqual('foo', x1.gtrid) self.assertEqual('bar', x1.bqual) def test_xid_from_string(self): from psycopg2.extensions import Xid x2 = Xid.from_string('42_Z3RyaWQ=_YnF1YWw=') self.assertEqual(42, x2.format_id) self.assertEqual('gtrid', x2.gtrid) self.assertEqual('bqual', x2.bqual) x3 = Xid.from_string('99_xxx_yyy') self.assertEqual(None, x3.format_id) self.assertEqual('99_xxx_yyy', x3.gtrid) self.assertEqual(None, x3.bqual) def test_xid_to_string(self): from psycopg2.extensions import Xid x1 = Xid.from_string('42_Z3RyaWQ=_YnF1YWw=') self.assertEqual(str(x1), '42_Z3RyaWQ=_YnF1YWw=') x2 = Xid.from_string('99_xxx_yyy') self.assertEqual(str(x2), '99_xxx_yyy') def test_xid_unicode(self): cnn = self.connect() x1 = cnn.xid(10, u'uni', u'code') cnn.tpc_begin(x1) cnn.tpc_prepare() cnn.reset() xid = [x for x in cnn.tpc_recover() if x.database == dbname][0] self.assertEqual(10, xid.format_id) self.assertEqual('uni', xid.gtrid) self.assertEqual('code', xid.bqual) def test_xid_unicode_unparsed(self): # We don't expect people shooting snowmen as transaction ids, # so if something explodes in an encode error I don't mind. # Let's just check uniconde is accepted as type. cnn = self.connect() cnn.set_client_encoding('utf8') cnn.tpc_begin(u"transaction-id") cnn.tpc_prepare() cnn.reset() xid = [x for x in cnn.tpc_recover() if x.database == dbname][0] self.assertEqual(None, xid.format_id) self.assertEqual('transaction-id', xid.gtrid) self.assertEqual(None, xid.bqual) def test_cancel_fails_prepared(self): cnn = self.connect() cnn.tpc_begin('cancel') cnn.tpc_prepare() self.assertRaises(psycopg2.ProgrammingError, cnn.cancel) def test_tpc_recover_non_dbapi_connection(self): from psycopg2.extras import RealDictConnection cnn = self.connect(connection_factory=RealDictConnection) cnn.tpc_begin('dict-connection') cnn.tpc_prepare() cnn.reset() xids = cnn.tpc_recover() xid = [x for x in xids if x.database == dbname][0] self.assertEqual(None, xid.format_id) self.assertEqual('dict-connection', xid.gtrid) self.assertEqual(None, xid.bqual) decorate_all_tests(ConnectionTwoPhaseTests, skip_if_tpc_disabled) class TransactionControlTests(ConnectingTestCase): def test_closed(self): self.conn.close() self.assertRaises(psycopg2.InterfaceError, self.conn.set_session, ext.ISOLATION_LEVEL_SERIALIZABLE) def test_not_in_transaction(self): cur = self.conn.cursor() cur.execute("select 1") self.assertRaises(psycopg2.ProgrammingError, self.conn.set_session, ext.ISOLATION_LEVEL_SERIALIZABLE) def test_set_isolation_level(self): cur = self.conn.cursor() self.conn.set_session( ext.ISOLATION_LEVEL_SERIALIZABLE) cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'serializable') self.conn.rollback() self.conn.set_session( ext.ISOLATION_LEVEL_REPEATABLE_READ) cur.execute("SHOW transaction_isolation;") if self.conn.server_version > 80000: self.assertEqual(cur.fetchone()[0], 'repeatable read') else: self.assertEqual(cur.fetchone()[0], 'serializable') self.conn.rollback() self.conn.set_session( isolation_level=ext.ISOLATION_LEVEL_READ_COMMITTED) cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'read committed') self.conn.rollback() self.conn.set_session( isolation_level=ext.ISOLATION_LEVEL_READ_UNCOMMITTED) cur.execute("SHOW transaction_isolation;") if self.conn.server_version > 80000: self.assertEqual(cur.fetchone()[0], 'read uncommitted') else: self.assertEqual(cur.fetchone()[0], 'read committed') self.conn.rollback() def test_set_isolation_level_str(self): cur = self.conn.cursor() self.conn.set_session("serializable") cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'serializable') self.conn.rollback() self.conn.set_session("repeatable read") cur.execute("SHOW transaction_isolation;") if self.conn.server_version > 80000: self.assertEqual(cur.fetchone()[0], 'repeatable read') else: self.assertEqual(cur.fetchone()[0], 'serializable') self.conn.rollback() self.conn.set_session("read committed") cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'read committed') self.conn.rollback() self.conn.set_session("read uncommitted") cur.execute("SHOW transaction_isolation;") if self.conn.server_version > 80000: self.assertEqual(cur.fetchone()[0], 'read uncommitted') else: self.assertEqual(cur.fetchone()[0], 'read committed') self.conn.rollback() def test_bad_isolation_level(self): self.assertRaises(ValueError, self.conn.set_session, 0) self.assertRaises(ValueError, self.conn.set_session, 5) self.assertRaises(ValueError, self.conn.set_session, 'whatever') def test_set_read_only(self): self.assert_(self.conn.readonly is None) cur = self.conn.cursor() self.conn.set_session(readonly=True) self.assert_(self.conn.readonly is True) cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') self.conn.rollback() cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') self.conn.rollback() self.conn.set_session(readonly=False) self.assert_(self.conn.readonly is False) cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'off') self.conn.rollback() def test_setattr_read_only(self): cur = self.conn.cursor() self.conn.readonly = True self.assert_(self.conn.readonly is True) cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') self.assertRaises(self.conn.ProgrammingError, setattr, self.conn, 'readonly', False) self.assert_(self.conn.readonly is True) self.conn.rollback() cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') self.conn.rollback() cur = self.conn.cursor() self.conn.readonly = None self.assert_(self.conn.readonly is None) cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'off') # assume defined by server self.conn.rollback() self.conn.readonly = False self.assert_(self.conn.readonly is False) cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'off') self.conn.rollback() def test_set_default(self): cur = self.conn.cursor() cur.execute("SHOW transaction_isolation;") isolevel = cur.fetchone()[0] cur.execute("SHOW transaction_read_only;") readonly = cur.fetchone()[0] self.conn.rollback() self.conn.set_session(isolation_level='serializable', readonly=True) self.conn.set_session(isolation_level='default', readonly='default') cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], isolevel) cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], readonly) @skip_before_postgres(9, 1) def test_set_deferrable(self): self.assert_(self.conn.deferrable is None) cur = self.conn.cursor() self.conn.set_session(readonly=True, deferrable=True) self.assert_(self.conn.deferrable is True) cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') cur.execute("SHOW transaction_deferrable;") self.assertEqual(cur.fetchone()[0], 'on') self.conn.rollback() cur.execute("SHOW transaction_deferrable;") self.assertEqual(cur.fetchone()[0], 'on') self.conn.rollback() self.conn.set_session(deferrable=False) self.assert_(self.conn.deferrable is False) cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') cur.execute("SHOW transaction_deferrable;") self.assertEqual(cur.fetchone()[0], 'off') self.conn.rollback() @skip_after_postgres(9, 1) def test_set_deferrable_error(self): self.assertRaises(psycopg2.ProgrammingError, self.conn.set_session, readonly=True, deferrable=True) self.assertRaises(psycopg2.ProgrammingError, setattr, self.conn, 'deferrable', True) @skip_before_postgres(9, 1) def test_setattr_deferrable(self): cur = self.conn.cursor() self.conn.deferrable = True self.assert_(self.conn.deferrable is True) cur.execute("SHOW transaction_deferrable;") self.assertEqual(cur.fetchone()[0], 'on') self.assertRaises(self.conn.ProgrammingError, setattr, self.conn, 'deferrable', False) self.assert_(self.conn.deferrable is True) self.conn.rollback() cur.execute("SHOW transaction_deferrable;") self.assertEqual(cur.fetchone()[0], 'on') self.conn.rollback() cur = self.conn.cursor() self.conn.deferrable = None self.assert_(self.conn.deferrable is None) cur.execute("SHOW transaction_deferrable;") self.assertEqual(cur.fetchone()[0], 'off') # assume defined by server self.conn.rollback() self.conn.deferrable = False self.assert_(self.conn.deferrable is False) cur.execute("SHOW transaction_deferrable;") self.assertEqual(cur.fetchone()[0], 'off') self.conn.rollback() def test_mixing_session_attribs(self): cur = self.conn.cursor() self.conn.autocommit = True self.conn.readonly = True cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') cur.execute("SHOW default_transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') self.conn.autocommit = False cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') cur.execute("SHOW default_transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'off') class AutocommitTests(ConnectingTestCase): def test_closed(self): self.conn.close() self.assertRaises(psycopg2.InterfaceError, setattr, self.conn, 'autocommit', True) # The getter doesn't have a guard. We may change this in future # to make it consistent with other methods; meanwhile let's just check # it doesn't explode. try: self.assert_(self.conn.autocommit in (True, False)) except psycopg2.InterfaceError: pass def test_default_no_autocommit(self): self.assert_(not self.conn.autocommit) self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) cur = self.conn.cursor() cur.execute('select 1;') self.assertEqual(self.conn.status, ext.STATUS_BEGIN) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_INTRANS) self.conn.rollback() self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) def test_set_autocommit(self): self.conn.autocommit = True self.assert_(self.conn.autocommit) self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) cur = self.conn.cursor() cur.execute('select 1;') self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) self.conn.autocommit = False self.assert_(not self.conn.autocommit) self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) cur.execute('select 1;') self.assertEqual(self.conn.status, ext.STATUS_BEGIN) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_INTRANS) def test_set_intrans_error(self): cur = self.conn.cursor() cur.execute('select 1;') self.assertRaises(psycopg2.ProgrammingError, setattr, self.conn, 'autocommit', True) def test_set_session_autocommit(self): self.conn.set_session(autocommit=True) self.assert_(self.conn.autocommit) self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) cur = self.conn.cursor() cur.execute('select 1;') self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) self.conn.set_session(autocommit=False) self.assert_(not self.conn.autocommit) self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) cur.execute('select 1;') self.assertEqual(self.conn.status, ext.STATUS_BEGIN) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_INTRANS) self.conn.rollback() self.conn.set_session('serializable', readonly=True, autocommit=True) self.assert_(self.conn.autocommit) cur.execute('select 1;') self.assertEqual(self.conn.status, ext.STATUS_READY) self.assertEqual(self.conn.get_transaction_status(), ext.TRANSACTION_STATUS_IDLE) cur.execute("SHOW transaction_isolation;") self.assertEqual(cur.fetchone()[0], 'serializable') cur.execute("SHOW transaction_read_only;") self.assertEqual(cur.fetchone()[0], 'on') class PasswordLeakTestCase(ConnectingTestCase): def setUp(self): super(PasswordLeakTestCase, self).setUp() PasswordLeakTestCase.dsn = None class GrassingConnection(ext.connection): """A connection snitching the dsn away. This connection passes the dsn to the test case class even if init fails (e.g. connection error). Test that we mangle the dsn ok anyway. """ def __init__(self, *args, **kwargs): try: super(PasswordLeakTestCase.GrassingConnection, self).__init__( *args, **kwargs) finally: # The connection is not initialized entirely, however the C # code should have set the dsn, and it should have scrubbed # the password away PasswordLeakTestCase.dsn = self.dsn def test_leak(self): self.assertRaises(psycopg2.DatabaseError, self.GrassingConnection, "dbname=nosuch password=whateva") self.assertDsnEqual(self.dsn, "dbname=nosuch password=xxx") @skip_before_libpq(9, 2) def test_url_leak(self): self.assertRaises(psycopg2.DatabaseError, self.GrassingConnection, "postgres://someone:whateva@localhost/nosuch") self.assertDsnEqual(self.dsn, "user=someone password=xxx host=localhost dbname=nosuch") def test_suite(): return unittest.TestLoader().loadTestsFromName(__name__) if __name__ == "__main__": unittest.main()