def test_transaction_management(self): transaction.enter_transaction_management() transaction.managed(True) self.assertEqual(connection.isolation_level, self._read_committed) transaction.leave_transaction_management() self.assertEqual(connection.isolation_level, self._autocommit)
def _fixture_setup(self): if not connections_support_transactions(): return super(TestCase, self)._fixture_setup() assert not self.reset_sequences, 'reset_sequences cannot be used on TestCase instances' # If the test case has a multi_db=True flag, setup all databases. # Otherwise, just use default. db_names = connections if getattr(self, 'multi_db', False) else [DEFAULT_DB_ALIAS] for db_name in db_names: transaction.enter_transaction_management(using=db_name) transaction.managed(True, using=db_name) disable_transaction_methods() from djangocg.contrib.sites.models import Site Site.objects.clear_cache() for db in db_names: if hasattr(self, 'fixtures'): call_command('loaddata', *self.fixtures, **{ 'verbosity': 0, 'commit': False, 'database': db, 'skip_validation': True, })
def run_select_for_update(self, status, nowait=False): """ Utility method that runs a SELECT FOR UPDATE against all Person instances. After the select_for_update, it attempts to update the name of the only record, save, and commit. This function expects to run in a separate thread. """ status.append('started') try: # We need to enter transaction management again, as this is done on # per-thread basis transaction.enter_transaction_management(True) transaction.managed(True) people = list( Person.objects.all().select_for_update(nowait=nowait) ) people[0].name = 'Fred' people[0].save() transaction.commit() except DatabaseError as e: status.append(e) finally: # This method is run in a separate thread. It uses its own # database connection. Close it without waiting for the GC. connection.close()
def test_transaction_not_dirty_unmanaged(self): """ If we're not under txn management, the txn will never be marked as dirty. """ transaction.managed(False) transaction.leave_transaction_management() people = list(Person.objects.select_for_update()) self.assertFalse(transaction.is_dirty())
def tearDown(self): try: # We don't really care if this fails - some of the tests will set # this in the course of their run. transaction.managed(False) transaction.leave_transaction_management() self.new_connection.leave_transaction_management() except transaction.TransactionManagementError: pass self.new_connection.close() settings.DEBUG = self._old_debug try: self.end_blocking_transaction() except (DatabaseError, AttributeError): pass
def setUp(self): # Create a second connection to the default database conn_settings = settings.DATABASES[DEFAULT_DB_ALIAS] self.conn2 = backend.DatabaseWrapper({ 'HOST': conn_settings['HOST'], 'NAME': conn_settings['NAME'], 'OPTIONS': conn_settings['OPTIONS'], 'PASSWORD': conn_settings['PASSWORD'], 'PORT': conn_settings['PORT'], 'USER': conn_settings['USER'], 'TIME_ZONE': settings.TIME_ZONE, }) # Put both DB connections into managed transaction mode transaction.enter_transaction_management() transaction.managed(True) self.conn2._enter_transaction_management(True)
def setUp(self): transaction.enter_transaction_management(True) transaction.managed(True) self.person = Person.objects.create(name='Reinhardt') # We have to commit here so that code in run_select_for_update can # see this data. transaction.commit() # We need another database connection to test that one connection # issuing a SELECT ... FOR UPDATE will block. new_connections = ConnectionHandler(settings.DATABASES) self.new_connection = new_connections[DEFAULT_DB_ALIAS] self.new_connection.enter_transaction_management() self.new_connection.managed(True) # We need to set settings.DEBUG to True so we can capture # the output SQL to examine. self._old_debug = settings.DEBUG settings.DEBUG = True
def test_forward_refs(self): """ Tests that objects ids can be referenced before they are defined in the serialization data. """ # The deserialization process needs to be contained # within a transaction in order to test forward reference # handling. transaction.enter_transaction_management() transaction.managed(True) objs = serializers.deserialize(self.serializer_name, self.fwd_ref_str) with connection.constraint_checks_disabled(): for obj in objs: obj.save() transaction.commit() transaction.leave_transaction_management() for model_cls in (Category, Author, Article): self.assertEqual(model_cls.objects.all().count(), 1) art_obj = Article.objects.all()[0] self.assertEqual(art_obj.categories.all().count(), 1) self.assertEqual(art_obj.author.name, "Agnes")
def process_request(self, request): """Enters transaction management""" transaction.enter_transaction_management() transaction.managed(True)
def handle(self, *fixture_labels, **options): using = options.get('database') connection = connections[using] if not len(fixture_labels): raise CommandError( "No database fixture specified. Please provide the path of at " "least one fixture in the command line." ) verbosity = int(options.get('verbosity')) show_traceback = options.get('traceback') # commit is a stealth option - it isn't really useful as # a command line option, but it can be useful when invoking # loaddata from within another script. # If commit=True, loaddata will use its own transaction; # if commit=False, the data load SQL will become part of # the transaction in place when loaddata was invoked. commit = options.get('commit', True) # Keep a count of the installed objects and fixtures fixture_count = 0 loaded_object_count = 0 fixture_object_count = 0 models = set() humanize = lambda dirname: "'%s'" % dirname if dirname else 'absolute path' # Get a cursor (even though we don't need one yet). This has # the side effect of initializing the test database (if # it isn't already initialized). cursor = connection.cursor() # Start transaction management. All fixtures are installed in a # single transaction to ensure that all references are resolved. if commit: transaction.commit_unless_managed(using=using) transaction.enter_transaction_management(using=using) transaction.managed(True, using=using) class SingleZipReader(zipfile.ZipFile): def __init__(self, *args, **kwargs): zipfile.ZipFile.__init__(self, *args, **kwargs) if settings.DEBUG: assert len(self.namelist()) == 1, "Zip-compressed fixtures must contain only one file." def read(self): return zipfile.ZipFile.read(self, self.namelist()[0]) compression_types = { None: open, 'gz': gzip.GzipFile, 'zip': SingleZipReader } if has_bz2: compression_types['bz2'] = bz2.BZ2File app_module_paths = [] for app in get_apps(): if hasattr(app, '__path__'): # It's a 'models/' subpackage for path in app.__path__: app_module_paths.append(path) else: # It's a models.py module app_module_paths.append(app.__file__) app_fixtures = [os.path.join(os.path.dirname(path), 'fixtures') for path in app_module_paths] try: with connection.constraint_checks_disabled(): for fixture_label in fixture_labels: parts = fixture_label.split('.') if len(parts) > 1 and parts[-1] in compression_types: compression_formats = [parts[-1]] parts = parts[:-1] else: compression_formats = compression_types.keys() if len(parts) == 1: fixture_name = parts[0] formats = serializers.get_public_serializer_formats() else: fixture_name, format = '.'.join(parts[:-1]), parts[-1] if format in serializers.get_public_serializer_formats(): formats = [format] else: formats = [] if formats: if verbosity >= 2: self.stdout.write("Loading '%s' fixtures..." % fixture_name) else: raise CommandError( "Problem installing fixture '%s': %s is not a known serialization format." % (fixture_name, format)) if os.path.isabs(fixture_name): fixture_dirs = [fixture_name] else: fixture_dirs = app_fixtures + list(settings.FIXTURE_DIRS) + [''] for fixture_dir in fixture_dirs: if verbosity >= 2: self.stdout.write("Checking %s for fixtures..." % humanize(fixture_dir)) label_found = False for combo in product([using, None], formats, compression_formats): database, format, compression_format = combo file_name = '.'.join( p for p in [ fixture_name, database, format, compression_format ] if p ) if verbosity >= 3: self.stdout.write("Trying %s for %s fixture '%s'..." % \ (humanize(fixture_dir), file_name, fixture_name)) full_path = os.path.join(fixture_dir, file_name) open_method = compression_types[compression_format] try: fixture = open_method(full_path, 'r') except IOError: if verbosity >= 2: self.stdout.write("No %s fixture '%s' in %s." % \ (format, fixture_name, humanize(fixture_dir))) else: try: if label_found: raise CommandError("Multiple fixtures named '%s' in %s. Aborting." % (fixture_name, humanize(fixture_dir))) fixture_count += 1 objects_in_fixture = 0 loaded_objects_in_fixture = 0 if verbosity >= 2: self.stdout.write("Installing %s fixture '%s' from %s." % \ (format, fixture_name, humanize(fixture_dir))) objects = serializers.deserialize(format, fixture, using=using) for obj in objects: objects_in_fixture += 1 if router.allow_syncdb(using, obj.object.__class__): loaded_objects_in_fixture += 1 models.add(obj.object.__class__) try: obj.save(using=using) except (DatabaseError, IntegrityError) as e: e.args = ("Could not load %(app_label)s.%(object_name)s(pk=%(pk)s): %(error_msg)s" % { 'app_label': obj.object._meta.app_label, 'object_name': obj.object._meta.object_name, 'pk': obj.object.pk, 'error_msg': force_text(e) },) raise loaded_object_count += loaded_objects_in_fixture fixture_object_count += objects_in_fixture label_found = True except Exception as e: if not isinstance(e, CommandError): e.args = ("Problem installing fixture '%s': %s" % (full_path, e),) raise finally: fixture.close() # If the fixture we loaded contains 0 objects, assume that an # error was encountered during fixture loading. if objects_in_fixture == 0: raise CommandError( "No fixture data found for '%s'. (File format may be invalid.)" % (fixture_name)) # Since we disabled constraint checks, we must manually check for # any invalid keys that might have been added table_names = [model._meta.db_table for model in models] try: connection.check_constraints(table_names=table_names) except Exception as e: e.args = ("Problem installing fixtures: %s" % e,) raise except (SystemExit, KeyboardInterrupt): raise except Exception as e: if commit: transaction.rollback(using=using) transaction.leave_transaction_management(using=using) raise # If we found even one object in a fixture, we need to reset the # database sequences. if loaded_object_count > 0: sequence_sql = connection.ops.sequence_reset_sql(no_style(), models) if sequence_sql: if verbosity >= 2: self.stdout.write("Resetting sequences\n") for line in sequence_sql: cursor.execute(line) if commit: transaction.commit(using=using) transaction.leave_transaction_management(using=using) if verbosity >= 1: if fixture_object_count == loaded_object_count: self.stdout.write("Installed %d object(s) from %d fixture(s)" % ( loaded_object_count, fixture_count)) else: self.stdout.write("Installed %d object(s) (of %d) from %d fixture(s)" % ( loaded_object_count, fixture_object_count, fixture_count)) # Close the DB connection. This is required as a workaround for an # edge case in MySQL: if the same connection is used to # create tables, load data, and query, the query can return # incorrect results. See Django #7572, MySQL #37735. if commit: connection.close()