# 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. """Fixtures for writing tests for code using oslo.versionedobjects .. note:: This module has several extra dependencies not needed at runtime for production code, and therefore not installed by default. To ensure those dependencies are present for your tests, add ``oslo.versionedobjects[fixtures]`` to your list of test dependencies. """ from collections import OrderedDict import copy import datetime import hashlib import inspect import logging import mock from oslo_utils import versionutils as vutils import six import fixtures from oslo_versionedobjects import base from oslo_versionedobjects import fields LOG = logging.getLogger(__name__) def compare_obj(test, obj, db_obj, subs=None, allow_missing=None, comparators=None): """Compare a VersionedObject and a dict-like database object. This automatically converts TZ-aware datetimes and iterates over the fields of the object. :param test: The TestCase doing the comparison :param obj: The VersionedObject to examine :param db_obj: The dict-like database object to use as reference :param subs: A dict of objkey=dbkey field substitutions :param allow_missing: A list of fields that may not be in db_obj :param comparators: Map of comparator functions to use for certain fields """ if subs is None: subs = {} if allow_missing is None: allow_missing = [] if comparators is None: comparators = {} for key in obj.fields: # We'll raise a NotImplementedError if we try to compare against # against something that isn't set in the object, but is not # in the allow_missing. This will replace that exception # with an AssertionError (because that is a better way of saying # "these objects arent the same"). if not obj.obj_attr_is_set(key): if key in allow_missing: continue else: raise AssertionError(("%s is not set on the object, so " "the objects are not equal") % key) if key in allow_missing and not obj.obj_attr_is_set(key): continue obj_val = getattr(obj, key) db_key = subs.get(key, key) db_val = db_obj[db_key] if isinstance(obj_val, datetime.datetime): obj_val = obj_val.replace(tzinfo=None) if key in comparators: comparator = comparators[key] comparator(db_val, obj_val) else: test.assertEqual(db_val, obj_val) class FakeIndirectionAPI(base.VersionedObjectIndirectionAPI): def __init__(self, serializer=None): super(FakeIndirectionAPI, self).__init__() self._ser = serializer or base.VersionedObjectSerializer() def _get_changes(self, orig_obj, new_obj): updates = dict() for name, field in new_obj.fields.items(): if not new_obj.obj_attr_is_set(name): continue if (not orig_obj.obj_attr_is_set(name) or getattr(orig_obj, name) != getattr(new_obj, name)): updates[name] = field.to_primitive(new_obj, name, getattr(new_obj, name)) return updates def _canonicalize_args(self, context, args, kwargs): args = tuple( [self._ser.deserialize_entity( context, self._ser.serialize_entity(context, arg)) for arg in args]) kwargs = dict( [(argname, self._ser.deserialize_entity( context, self._ser.serialize_entity(context, arg))) for argname, arg in six.iteritems(kwargs)]) return args, kwargs def object_action(self, context, objinst, objmethod, args, kwargs): objinst = self._ser.deserialize_entity( context, self._ser.serialize_entity( context, objinst)) objmethod = six.text_type(objmethod) args, kwargs = self._canonicalize_args(context, args, kwargs) original = objinst.obj_clone() with mock.patch('oslo_versionedobjects.base.VersionedObject.' 'indirection_api', new=None): result = getattr(objinst, objmethod)(*args, **kwargs) updates = self._get_changes(original, objinst) updates['obj_what_changed'] = objinst.obj_what_changed() return updates, result def object_class_action(self, context, objname, objmethod, objver, args, kwargs): objname = six.text_type(objname) objmethod = six.text_type(objmethod) objver = six.text_type(objver) args, kwargs = self._canonicalize_args(context, args, kwargs) cls = base.VersionedObject.obj_class_from_name(objname, objver) with mock.patch('oslo_versionedobjects.base.VersionedObject.' 'indirection_api', new=None): result = getattr(cls, objmethod)(context, *args, **kwargs) return (base.VersionedObject.obj_from_primitive( result.obj_to_primitive(target_version=objver), context=context) if isinstance(result, base.VersionedObject) else result) def object_class_action_versions(self, context, objname, objmethod, object_versions, args, kwargs): objname = six.text_type(objname) objmethod = six.text_type(objmethod) object_versions = {six.text_type(o): six.text_type(v) for o, v in object_versions.items()} args, kwargs = self._canonicalize_args(context, args, kwargs) objver = object_versions[objname] cls = base.VersionedObject.obj_class_from_name(objname, objver) with mock.patch('oslo_versionedobjects.base.VersionedObject.' 'indirection_api', new=None): result = getattr(cls, objmethod)(context, *args, **kwargs) return (base.VersionedObject.obj_from_primitive( result.obj_to_primitive(target_version=objver), context=context) if isinstance(result, base.VersionedObject) else result) def object_backport(self, context, objinst, target_version): raise Exception('not supported') class IndirectionFixture(fixtures.Fixture): def __init__(self, indirection_api=None): self.indirection_api = indirection_api or FakeIndirectionAPI() def setUp(self): super(IndirectionFixture, self).setUp() self.useFixture(fixtures.MonkeyPatch( 'oslo_versionedobjects.base.VersionedObject.indirection_api', self.indirection_api)) class ObjectHashMismatch(Exception): def __init__(self, expected, actual): self.expected = expected self.actual = actual def __str__(self): return 'Hashes have changed for %s' % ( ','.join(set(self.expected.keys() + self.actual.keys()))) class ObjectVersionChecker(object): def __init__(self, obj_classes=base.VersionedObjectRegistry.obj_classes()): self.obj_classes = obj_classes def _find_remotable_method(self, cls, thing, parent_was_remotable=False): """Follow a chain of remotable things down to the original function.""" if isinstance(thing, classmethod): return self._find_remotable_method(cls, thing.__get__(None, cls)) elif (inspect.ismethod(thing) or inspect.isfunction(thing)) and hasattr(thing, 'remotable'): return self._find_remotable_method(cls, thing.original_fn, parent_was_remotable=True) elif parent_was_remotable: # We must be the first non-remotable thing underneath a stack of # remotable things (i.e. the actual implementation method) return thing else: # This means the top-level thing never hit a remotable layer return None def _get_fingerprint(self, obj_name, extra_data_func=None): obj_class = self.obj_classes[obj_name][0] obj_fields = list(obj_class.fields.items()) obj_fields.sort() methods = [] for name in dir(obj_class): thing = getattr(obj_class, name) if inspect.ismethod(thing) or inspect.isfunction(thing) \ or isinstance(thing, classmethod): method = self._find_remotable_method(obj_class, thing) if method: methods.append((name, inspect.getargspec(method))) methods.sort() # NOTE(danms): Things that need a version bump are any fields # and their types, or the signatures of any remotable methods. # Of course, these are just the mechanical changes we can detect, # but many other things may require a version bump (method behavior # and return value changes, for example). if hasattr(obj_class, 'child_versions'): relevant_data = (obj_fields, methods, OrderedDict( sorted(obj_class.child_versions.items()))) else: relevant_data = (obj_fields, methods) if extra_data_func: relevant_data += extra_data_func(obj_class) fingerprint = '%s-%s' % (obj_class.VERSION, hashlib.md5( six.binary_type(repr(relevant_data).encode())).hexdigest()) return fingerprint def get_hashes(self, extra_data_func=None): """Return a dict of computed object hashes. :param extra_data_func: a function that is given the object class which gathers more relevant data about the class that is needed in versioning. Returns a tuple containing the extra data bits. """ fingerprints = {} for obj_name in sorted(self.obj_classes): fingerprints[obj_name] = self._get_fingerprint( obj_name, extra_data_func=extra_data_func) return fingerprints def test_hashes(self, expected_hashes): fingerprints = self.get_hashes() stored = set(expected_hashes.items()) computed = set(fingerprints.items()) changed = stored.symmetric_difference(computed) expected = {} actual = {} for name, hash in changed: expected[name] = expected_hashes.get(name) actual[name] = fingerprints.get(name) return expected, actual def _get_dependencies(self, tree, obj_class): obj_name = obj_class.obj_name() if obj_name in tree: return for name, field in obj_class.fields.items(): if isinstance(field._type, fields.Object): sub_obj_name = field._type._obj_name sub_obj_class = self.obj_classes[sub_obj_name][0] self._get_dependencies(tree, sub_obj_class) tree.setdefault(obj_name, {}) tree[obj_name][sub_obj_name] = sub_obj_class.VERSION def get_dependency_tree(self): tree = {} for obj_name in self.obj_classes.keys(): self._get_dependencies(tree, self.obj_classes[obj_name][0]) return tree def test_relationships(self, expected_tree): actual_tree = self.get_dependency_tree() stored = set([(x, str(y)) for x, y in expected_tree.items()]) computed = set([(x, str(y)) for x, y in actual_tree.items()]) changed = stored.symmetric_difference(computed) expected = {} actual = {} for name, deps in changed: expected[name] = expected_tree.get(name) actual[name] = actual_tree.get(name) return expected, actual def _test_object_compatibility(self, obj_class, manifest=None, init_args=None, init_kwargs=None): init_args = init_args or [] init_kwargs = init_kwargs or {} version = vutils.convert_version_to_tuple(obj_class.VERSION) kwargs = {'version_manifest': manifest} if manifest else {} for n in range(version[1] + 1): test_version = '%d.%d' % (version[0], n) LOG.info('testing obj: %s version: %s' % (obj_class.obj_name(), test_version)) kwargs['target_version'] = test_version obj_class(*init_args, **init_kwargs).obj_to_primitive(**kwargs) def test_compatibility_routines(self, use_manifest=False, init_args=None, init_kwargs=None): """Test obj_make_compatible() on all object classes. :param use_manifest: a boolean that determines if the version manifest should be passed to obj_make_compatible :param init_args: a dictionary of the format {obj_class: [arg1, arg2]} that will be used to pass arguments to init on the given obj_class. If no args are needed, the obj_class does not need to be added to the dict :param init_kwargs: a dictionary of the format {obj_class: {'kwarg1': val1}} that will be used to pass kwargs to init on the given obj_class. If no kwargs are needed, the obj_class does not need to be added to the dict """ # Iterate all object classes and verify that we can run # obj_make_compatible with every older version than current. # This doesn't actually test the data conversions, but it at least # makes sure the method doesn't blow up on something basic like # expecting the wrong version format. init_args = init_args or {} init_kwargs = init_kwargs or {} for obj_name in self.obj_classes: obj_classes = self.obj_classes[obj_name] if use_manifest: manifest = base.obj_tree_get_versions(obj_name) else: manifest = None for obj_class in obj_classes: args_for_init = init_args.get(obj_class, []) kwargs_for_init = init_kwargs.get(obj_class, {}) self._test_object_compatibility(obj_class, manifest=manifest, init_args=args_for_init, init_kwargs=kwargs_for_init) def _test_relationships_in_order(self, obj_class): for field, versions in obj_class.obj_relationships.items(): last_my_version = (0, 0) last_child_version = (0, 0) for my_version, child_version in versions: _my_version = vutils.convert_version_to_tuple(my_version) _ch_version = vutils.convert_version_to_tuple(child_version) assert (last_my_version < _my_version and last_child_version <= _ch_version), \ ('Object %s relationship ' '%s->%s for field %s is out of order') % ( obj_class.obj_name(), my_version, child_version, field) last_my_version = _my_version last_child_version = _ch_version def test_relationships_in_order(self): # Iterate all object classes and verify that we can run # obj_make_compatible with every older version than current. # This doesn't actually test the data conversions, but it at least # makes sure the method doesn't blow up on something basic like # expecting the wrong version format. for obj_name in self.obj_classes: obj_classes = self.obj_classes[obj_name] for obj_class in obj_classes: self._test_relationships_in_order(obj_class) class VersionedObjectRegistryFixture(fixtures.Fixture): """Use a VersionedObjectRegistry as a temp registry pattern fixture. The pattern solution is to backup the object registry, register a class locally, and then restore the original registry. This could be used for test objects that do not need to be registered permanently but will have calls which lookup registration. """ def setUp(self): super(VersionedObjectRegistryFixture, self).setUp() self._base_test_obj_backup = copy.deepcopy( base.VersionedObjectRegistry._registry._obj_classes) self.addCleanup(self._restore_obj_registry) @staticmethod def register(cls_name): base.VersionedObjectRegistry.register(cls_name) def _restore_obj_registry(self): base.VersionedObjectRegistry._registry._obj_classes = \ self._base_test_obj_backup