# Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import copy from unittest import mock import warnings import fixtures from oslo_config import cfg from oslo_db.sqlalchemy import enginefacade from oslo_db.sqlalchemy import provision from oslo_db.sqlalchemy import session from oslo_messaging import conffixture from neutron_lib.api import attributes from neutron_lib.api import definitions from neutron_lib.callbacks import manager from neutron_lib.callbacks import registry from neutron_lib.db import api as db_api from neutron_lib.db import model_base from neutron_lib.db import model_query from neutron_lib.db import resource_extend from neutron_lib.plugins import directory from neutron_lib import rpc from neutron_lib.tests.unit import fake_notifier CONF = cfg.CONF class PluginDirectoryFixture(fixtures.Fixture): def __init__(self, plugin_directory=None): super(PluginDirectoryFixture, self).__init__() self.plugin_directory = ( plugin_directory or directory._PluginDirectory()) def _setUp(self): self._orig_directory = directory._PLUGIN_DIRECTORY directory._PLUGIN_DIRECTORY = self.plugin_directory self.addCleanup(self._restore) def _restore(self): directory._PLUGIN_DIRECTORY = self._orig_directory class CallbackRegistryFixture(fixtures.Fixture): """Callback registry fixture. This class is intended to be used as a fixture within unit tests and therefore consumers must register it using useFixture() within their unit test class. The implementation optionally allows consumers to pass in the CallbacksManager manager to use for your tests. """ def __init__(self, callback_manager=None): """Creates a new RegistryFixture. :param callback_manager: If specified, the return value to use for _get_callback_manager(). Otherwise a new instance of CallbacksManager is used. """ super(CallbackRegistryFixture, self).__init__() self.callback_manager = callback_manager or manager.CallbacksManager() self.patcher = None def _setUp(self): self._orig_manager = registry._get_callback_manager() self.patcher = mock.patch.object( registry, '_get_callback_manager', return_value=self.callback_manager) self.patcher.start() self.addCleanup(self._restore) def _restore(self): registry._CALLBACK_MANAGER = self._orig_manager self.patcher.stop() class _EnableSQLiteFKsFixture(fixtures.Fixture): """Turn SQLite PRAGMA foreign keys on and off for tests. FIXME(zzzeek): figure out some way to get oslo.db test_base to honor oslo_db.engines.create_engine() arguments like sqlite_fks as well as handling that it needs to be turned off during drops. """ def __init__(self, engine): self.engine = engine def _setUp(self): if self.engine.name == 'sqlite': self.engine.execute("PRAGMA foreign_keys=ON") def disable_fks(): with self.engine.connect() as conn: conn.connection.rollback() conn.execute("PRAGMA foreign_keys=OFF") self.addCleanup(disable_fks) class SqlFixture(fixtures.Fixture): @classmethod def _generate_schema(cls, engine): model_base.BASEV2.metadata.create_all(engine) def _delete_from_schema(self, engine): with engine.begin() as conn: for table in reversed( model_base.BASEV2.metadata.sorted_tables): conn.execute(table.delete()) def _init_resources(self): pass def _setUp(self): self._init_resources() # check if the fixtures failed to get # an engine. The test setUp() itself should also be checking # this and raising skipTest. if not hasattr(self, 'engine'): return engine = self.engine self.addCleanup(lambda: self._delete_from_schema(engine)) self.sessionmaker = session.get_maker(engine) _restore_factory = db_api.get_context_manager()._root_factory self.enginefacade_factory = enginefacade._TestTransactionFactory( self.engine, self.sessionmaker, from_factory=_restore_factory, apply_global=False) db_api.get_context_manager()._root_factory = self.enginefacade_factory engine = db_api.CONTEXT_WRITER.get_engine() self.addCleanup( lambda: setattr( db_api.get_context_manager(), "_root_factory", _restore_factory)) self.useFixture(_EnableSQLiteFKsFixture(engine)) class StaticSqlFixture(SqlFixture): _GLOBAL_RESOURCES = False @classmethod def _init_resources(cls): # this is a classlevel version of what testresources # does w/ the resources attribute as well as the # setUpResources() step (which requires a test instance, that # SqlFixture does not have). Because this is a SQLite memory # database, we don't actually tear it down, so we can keep # it running throughout all tests. if cls._GLOBAL_RESOURCES: return else: cls._GLOBAL_RESOURCES = True cls.schema_resource = provision.SchemaResource( provision.DatabaseResource( "sqlite", db_api.get_context_manager()), cls._generate_schema, teardown=False) dependency_resources = {} for name, resource in cls.schema_resource.resources: dependency_resources[name] = resource.getResource() cls.schema_resource.make(dependency_resources) cls.engine = dependency_resources['database'].engine class APIDefinitionFixture(fixtures.Fixture): """Test fixture for testing neutron-lib API definitions. Extension API definition RESOURCE_ATTRIBUTE_MAP dicts get updated as part of standard extension processing/handling. While this behavior is fine for service runtime, it can impact testing scenarios whereby test1 updates the attribute map (globally) and test2 doesn't expect the test1 updates. This fixture saves and restores 1 or more neutron-lib API definitions attribute maps. It should be used anywhere multiple tests can be run that might update an extension attribute map. In addition the fixture backs up and restores the global attribute RESOURCES base on the boolean value of its backup_global_resources attribute. """ def __init__(self, *api_definitions): """Create a new instance. Consumers can also control if the fixture should handle the global attribute RESOURCE map using the backup_global_resources of the fixture instance. If True the fixture will also handle neutron_lib.api.attributes.RESOURCES. :param api_definitions: Zero or more API definitions the fixture should handle. If no api_definitions are passed, the default is to handle all neutron_lib API definitions as well as the global RESOURCES attribute map. """ self.definitions = api_definitions or definitions._ALL_API_DEFINITIONS self._orig_attr_maps = {} self._orig_resources = {} self.backup_global_resources = True def _setUp(self): for api_def in self.definitions: self._orig_attr_maps[api_def.ALIAS] = ( api_def, {k: copy.deepcopy(v) for k, v in api_def.RESOURCE_ATTRIBUTE_MAP.items()}) if self.backup_global_resources: for resource, attrs in attributes.RESOURCES.items(): self._orig_resources[resource] = copy.deepcopy(attrs) self.addCleanup(self._restore) def _restore(self): # clear + repopulate so consumer refs don't change for alias, def_and_map in self._orig_attr_maps.items(): api_def, attr_map = def_and_map[0], def_and_map[1] api_def.RESOURCE_ATTRIBUTE_MAP.clear() api_def.RESOURCE_ATTRIBUTE_MAP.update(attr_map) if self.backup_global_resources: attributes.RESOURCES.clear() attributes.RESOURCES.update(self._orig_resources) @classmethod def all_api_definitions_fixture(cls): """Return a fixture that handles all neutron-lib api-defs.""" return APIDefinitionFixture(*tuple(definitions._ALL_API_DEFINITIONS)) class PlacementAPIClientFixture(fixtures.Fixture): """Placement API client fixture. This class is intended to be used as a fixture within unit tests and therefore consumers must register it using useFixture() within their unit test class. """ def __init__(self, placement_api_client): """Creates a new PlacementAPIClientFixture. :param placement_api_client: Placement API client object. """ super(PlacementAPIClientFixture, self).__init__() self.placement_api_client = placement_api_client def _setUp(self): self.addCleanup(self._restore) def mock_create_client(): self.placement_api_client.client = mock.Mock() self._mock_create_client = mock.patch.object( self.placement_api_client, '_create_client', side_effect=mock_create_client) self._mock_get = mock.patch.object(self.placement_api_client, '_get') self._mock_post = mock.patch.object(self.placement_api_client, '_post') self._mock_put = mock.patch.object(self.placement_api_client, '_put') self._mock_delete = mock.patch.object(self.placement_api_client, '_delete') self._mock_create_client.start() self.mock_get = self._mock_get.start() self.mock_post = self._mock_post.start() self.mock_put = self._mock_put.start() self.mock_delete = self._mock_delete.start() def _restore(self): self._mock_create_client.stop() self._mock_get.stop() self._mock_post.stop() self._mock_put.stop() self._mock_delete.stop() class DBRetryErrorsFixture(fixtures.Fixture): def __init__(self, **retry_kwargs): self._retry_kwargs = retry_kwargs self._patchers = [] def _setUp(self): for k, v in self._retry_kwargs.items(): patcher = mock.patch.object(db_api._retry_db_errors, k, new=v) patcher.start() self._patchers.append(patcher) self.addCleanup(self._restore) def _restore(self): for p in self._patchers: p.stop() class DBAPIContextManagerFixture(fixtures.Fixture): def __init__(self, mock_context_manager=mock.ANY): self.cxt_manager = (mock.Mock() if mock_context_manager == mock.ANY else mock_context_manager) self._backup_mgr = None def _setUp(self): self._backup_mgr = db_api._CTX_MANAGER db_api._CTX_MANAGER = self.cxt_manager self.addCleanup(self._restore) def _restore(self): db_api._CTX_MANAGER = self._backup_mgr class DBQueryHooksFixture(fixtures.Fixture): def _setUp(self, query_hooks=None): self._backup = model_query._model_query_hooks model_query._model_query_hooks = query_hooks or {} self.addCleanup(self._restore) def _restore(self): model_query._model_query_hooks = self._backup class RPCFixture(fixtures.Fixture): def _setUp(self): # don't actually start RPC listeners when testing mock.patch.object(rpc.Connection, 'consume_in_threads', return_value=[]).start() self.useFixture(fixtures.MonkeyPatch( 'oslo_messaging.Notifier', fake_notifier.FakeNotifier)) self.messaging_conf = conffixture.ConfFixture(CONF) self.messaging_conf.transport_url = 'fake:/' # NOTE(russellb) We want all calls to return immediately. self.messaging_conf.response_timeout = 0 self.useFixture(self.messaging_conf) self.addCleanup(rpc.cleanup) rpc.init(CONF) class DBResourceExtendFixture(fixtures.Fixture): def __init__(self, extended_functions=None): self.extended_functions = extended_functions or {} def _setUp(self): self._backup = copy.deepcopy( resource_extend._resource_extend_functions) resource_extend._resource_extend_functions = self.extended_functions self.addCleanup(self._restore) def _restore(self): resource_extend._resource_extend_functions = self._backup class OpenFixture(fixtures.Fixture): """Mock access to a specific file while preserving open for others.""" def __init__(self, filepath, contents=''): self.path = filepath self.contents = contents def _setUp(self): self.mock_open = mock.mock_open(read_data=self.contents) self._orig_open = open def replacement_open(name, *args, **kwargs): if name == self.path: return self.mock_open(name, *args, **kwargs) return self._orig_open(name, *args, **kwargs) self._patch = mock.patch('builtins.open', new=replacement_open) self._patch.start() self.addCleanup(self._patch.stop) class WarningsFixture(fixtures.Fixture): """Filters out warnings during test runs.""" warning_types = ( DeprecationWarning, PendingDeprecationWarning, ImportWarning ) def __init__(self, module_re=None): """Create a new WarningsFixture. :param module_re: A list of regular expression strings that will be used with filterwarnings. Multiple expressions are or'd together. """ self._modules = ['^neutron_lib\\.'] if module_re: self._modules.extend(module_re) def _setUp(self): self.addCleanup(warnings.resetwarnings) for wtype in self.warning_types: warnings.filterwarnings( "once", category=wtype, module='|'.join(self._modules))