def set_up(self, message_payload: Any, message_encoded: Dict, message_serialized: str, user_id: Optional[str] = None, user_key: Optional[str] = None) -> None: ''' Set up base class with class, encoded, and serialzed versions of the same message - for testing serialize/deserialize & encode/decode. ''' # ------------------------------ # User # ------------------------------ if not user_id: # Some random UserId value from a run of this test. user_id = "147d7414-b7bd-5779-96cb-4cc72b19a514" self._user_id_gen.ut_set_up({ self._uname: int(user_id.replace('-', ''), 16), }) self._uid = self._user_id_gen.next(self._uname) # TODO: eventually: use a UserKey too. # if not user_key: # # Some random UserKey value from a run of this test. # user_key = "TODO: this value".replace('-', ''), # self._user_key_gen.ut_set_up({ # self._ukeygen: int( # # Some random UserKey value from a run of this test. # "TODO: this value".replace('-', ''), # 16), # }) # self._ukey = self._user_key_gen.next(self._ukey) # ------------------------------ # Serdes/Codec # ------------------------------ self.serdes = JsonSerdes() self.codec = Codec() # ------------------------------ # Message # ------------------------------ self.payload = message_payload self.encoded = message_encoded self.serialized = message_serialized
def _decode(self, data: _DeserializeMidTypes, codec: Codec) -> DeserializeTypes: ''' Decode `data` after it has been deserialized. Final step before returning to caller. ''' # # Don't need to do anything more for simpler collections. # if isinstance(data, (dict, list)): # return decoded # Try to decode... # If it can't be decoded, use data as decoded. Could be just the # metadata document or something which is (currently) just a dict. decoded = codec.decode(None, data, error_squelch=True, fallback=data) return decoded
def _define_vars(self) -> None: ''' Defines any instance variables with type hinting, docstrs. Happens ASAP during unittest.setUp(), before ZestBase.set_up(). ''' super()._define_vars() # ------------------------------ # Test ID Generators # ------------------------------ self._msg_id_gen: MonotonicIdGenerator = MonotonicId.generator() '''ID generator for creating Mediator messages.''' self._user_id_gen: MockUserIdGenerator = UserId.generator( unit_testing=True) '''Generates repeatable user ids for use in testing.''' self._user_key_gen: MockUserKeyGenerator = UserKey.generator( unit_testing=True) '''Generates repeatable user keys for use in testing.''' # ------------------------------ # Test User # ------------------------------ self._uname: str = 'Tester Jeff' '''A user display name for UserID generation.''' self._uid: UserId = None '''A user id to use.''' # TODO: Eventually use a UserKey too. # self._ukeygen: str or int or idk = 'something' or 42 or w/e # '''An input for user key generation.''' self._ukey: Optional[UserKey] = None '''A user key to use.''' # ------------------------------ # Serdes / Codec # ------------------------------ self.serdes: JsonSerdes = JsonSerdes() '''Serdes to use for testing.''' self.codec = Codec() '''Codec to use for testing.''' # ------------------------------ # Test Message # ------------------------------ self.payload: Any = None '''Payload to use to create `self.message`.''' self.message: Message = None ''' Message that should match `self.encoded` and `self.serialized`. ''' self.encoded: Dict = None ''' Encoded dictionary that should match `self.message` and `self.serialized`. ''' self.serialized: str = None '''
class Test_Message_Base(ZestBase): def _define_vars(self) -> None: ''' Defines any instance variables with type hinting, docstrs. Happens ASAP during unittest.setUp(), before ZestBase.set_up(). ''' super()._define_vars() # ------------------------------ # Test ID Generators # ------------------------------ self._msg_id_gen: MonotonicIdGenerator = MonotonicId.generator() '''ID generator for creating Mediator messages.''' self._user_id_gen: MockUserIdGenerator = UserId.generator( unit_testing=True) '''Generates repeatable user ids for use in testing.''' self._user_key_gen: MockUserKeyGenerator = UserKey.generator( unit_testing=True) '''Generates repeatable user keys for use in testing.''' # ------------------------------ # Test User # ------------------------------ self._uname: str = 'Tester Jeff' '''A user display name for UserID generation.''' self._uid: UserId = None '''A user id to use.''' # TODO: Eventually use a UserKey too. # self._ukeygen: str or int or idk = 'something' or 42 or w/e # '''An input for user key generation.''' self._ukey: Optional[UserKey] = None '''A user key to use.''' # ------------------------------ # Serdes / Codec # ------------------------------ self.serdes: JsonSerdes = JsonSerdes() '''Serdes to use for testing.''' self.codec = Codec() '''Codec to use for testing.''' # ------------------------------ # Test Message # ------------------------------ self.payload: Any = None '''Payload to use to create `self.message`.''' self.message: Message = None ''' Message that should match `self.encoded` and `self.serialized`. ''' self.encoded: Dict = None ''' Encoded dictionary that should match `self.message` and `self.serialized`. ''' self.serialized: str = None ''' Serialized string that should match `self.encoded` and `self.message`. ''' def set_up(self, message_payload: Any, message_encoded: Dict, message_serialized: str, user_id: Optional[str] = None, user_key: Optional[str] = None) -> None: ''' Set up base class with class, encoded, and serialzed versions of the same message - for testing serialize/deserialize & encode/decode. ''' # ------------------------------ # User # ------------------------------ if not user_id: # Some random UserId value from a run of this test. user_id = "147d7414-b7bd-5779-96cb-4cc72b19a514" self._user_id_gen.ut_set_up({ self._uname: int(user_id.replace('-', ''), 16), }) self._uid = self._user_id_gen.next(self._uname) # TODO: eventually: use a UserKey too. # if not user_key: # # Some random UserKey value from a run of this test. # user_key = "TODO: this value".replace('-', ''), # self._user_key_gen.ut_set_up({ # self._ukeygen: int( # # Some random UserKey value from a run of this test. # "TODO: this value".replace('-', ''), # 16), # }) # self._ukey = self._user_key_gen.next(self._ukey) # ------------------------------ # Serdes/Codec # ------------------------------ self.serdes = JsonSerdes() self.codec = Codec() # ------------------------------ # Message # ------------------------------ self.payload = message_payload self.encoded = message_encoded self.serialized = message_serialized def tear_down(self): self.serdes = None self.codec = None self.message = None self.payload = None self.encoded = None self.serialized = None self._msg_id_gen = None self._user_id_gen = None self._uname = None self._uid = None self._user_key_gen = None self._ukey = None # ------------------------------------------------------------------------- # Helpers: Payload # ------------------------------------------------------------------------- def make_payload(self, payload: Optional[str] = None) -> Any: ''' Default base impl just returns 'self.payload'. Override if you need a dynamic payload. ''' payload = payload or self.payload self.payload = payload self.assertTrue(self.payload) return self.payload # ------------------------------------------------------------------------- # Helpers: Message # ------------------------------------------------------------------------- def make_context(self, test_name: str) -> UnitTestContext: context = UnitTestContext(self, test_name=test_name) return context def fingerprint_string(self, string: str) -> int: ''' Converts string into an integer for testing equality without caring about dictionary ordering. Sums up the int value of each character. ''' value = 0 for each in string: if each in (' ', '\t', '\n'): # Allow for our pretty-printed string vs serialized output's # compact string. continue # Turn the char into an int. value += ord(each) return value def make_message(self) -> Message: ''' Create the Message object to use for serialization test. ''' # ------------------------------ # Unique Message ID # ------------------------------ mid = self._msg_id_gen.next() # ------------------------------ # Message Payload # ------------------------------ self.make_payload() # ------------------------------ # Create/Return Actual Message. # ------------------------------ # Create message with the math payload. self.message = Message(mid, MsgType.ENCODED, payload=self.payload, user_id=self._uid, user_key=self._ukey, subject=abac.Subject.BROADCAST) self.assertTrue(self.message) return self.message def assertPayloadEqual(self, expected: Any, payload: Any) -> None: ''' Asserts payloads are equal. Base implemenation just asserts truthiness are equal. Override if you know more about your payloads. ''' # Can't really do generic check, since payload can be anything. self.assertEqual(bool(expected), bool(payload)) def assertMessageEqual(self, expected: Message, message: Message) -> None: ''' Asserts message fields (except payload) to verify `decoded` matches `expected`. NOTE: Payloads compared via `self.assertPayloadEqual()`. ''' # ------------------------------ # Do they exist equally? # ------------------------------ exists_expected = bool(expected) exists_message = bool(message) self.assertEqual(exists_expected, exists_message) if expected is None or message is None: # Getting here means both are none, since we've asserted they're # equal when boolean'd. So this is fine. return # ------------------------------ # Do their contents match? # ------------------------------ self.assertEqual(expected.msg_id, message.msg_id) self.assertEqual(expected.entity_id, message.entity_id) self.assertEqual(expected.user_id, message.user_id) self.assertEqual(expected.user_key, message.user_key) self.assertEqual(expected.security_subject, message.security_subject) # ------------------------------ # Payload... # ------------------------------ self.assertPayloadEqual(expected.payload, message.payload) # ------------------------------------------------------------------------- # Tests # ------------------------------------------------------------------------- def do_test_init(self) -> None: ''' Just assert some stuff exists. ''' self.assertTrue(self._uid) # TODO: eventually use a user key too. # self.assertTrue(self._ukey) self.assertTrue(self.serdes) self.assertTrue(self.codec) self.assertTrue(self.encoded) self.assertTrue(self.serialized) self.make_message() self.assertTrue(self.payload) self.assertTrue(self.message) def do_test_encode(self): ''' Encode `self.message` and assert it is equal to our expected output: `self.encoded`. ''' # ------------------------------ # Create the message to be encoded. # ------------------------------ self.make_message() # ------------------------------ # Encode the message. # ------------------------------ encoded = self.codec.encode(self.message) # ------------------------------ # Compare encoded. # ------------------------------ # Dict is pretty big; just remove max for this assert so the failure # message is more helpful. old_max = self.maxDiff self.maxDiff = None self.assertDictEqual(encoded, self.encoded) self.maxDiff = old_max def do_test_decode(self) -> None: ''' Decode `self.encoded` and assert it is equal to our expected output: `self.message`. ''' # ------------------------------ # Create the message to compare against. # ------------------------------ # Must exactly match what we will decode! expected = self.make_message() # ------------------------------ # Decode message. # ------------------------------ decoded = self.codec.decode( # We should be able to decode only with the data dictionary. None, self.encoded) self.assertTrue(decoded) # ------------------------------ # Compare. # ------------------------------ self.assertMessageEqual(expected, decoded) def do_test_serialize(self) -> None: ''' Serialize `self.message` and assert it is equal to our expected output: `self.serialized`. ''' # ------------------------------ # Create the message to be serialized. # ------------------------------ message = self.make_message() # ------------------------------ # Serialize the message. # ------------------------------ context = self.make_context('test_serialize') serialized_stream = self.serdes.serialize(message, self.codec, context) serialized = serialized_stream.getvalue() # Dict is pretty big; just remove max for this assert so the failure # message is more helpful. old_max = self.maxDiff self.maxDiff = None # This probably won't work. We don't order dicts before printing, I # don't think... self.assertEqual(self.fingerprint_string(serialized), self.fingerprint_string(self.serialized)) self.maxDiff = old_max def do_test_deserialize(self): ''' Deserialize `self.serialized` and assert it is equal to our expected output: `self.message`. ''' # ------------------------------ # Create the message to compare against. # ------------------------------ # Must exactly match what we will decode! expected = self.make_message() # ------------------------------ # Deserialize message. # ------------------------------ decoded = self.serdes.deserialize( self.serialized, self.codec, self.make_context('test_deserialize')) self.assertTrue(decoded) # ------------------------------ # Compare. # ------------------------------ self.assertMessageEqual(expected, decoded)
def set_up(self): self.serdes = JsonSerdes() self.codec = Codec() self.path_all = zpath.serdes() / 'component.health.json' self.path_meta = zpath.serdes() / 'only.meta.json' self.path_comp = zpath.serdes() / 'only.component.json'
def set_up(self): self.serdes = YamlSerdes() self.codec = Codec() self.path_all = zpath.serdes() / 'component.health.yaml' self.path_meta = zpath.serdes() / 'only.meta.yaml' self.path_comp = zpath.serdes() / 'only.component.yaml'
def _serialize_prep(self, data: SerializeTypes, codec: Codec, context: 'VerediContext') -> Mapping[str, Any]: ''' Tries to turn the various possibilities for data (list, dict, etc) into something ready for json to serialize. ''' self._log_data_processing(self.dotted, "Serialize preparation...", context=context) serialized = None if null_or_none(data): self._log_data_processing(self.dotted, "No data to prep.", context=context) return serialized # Is it just an Encodable object? if isinstance(data, Encodable): self._log_data_processing(self.dotted, "Encoding `Encodable` data " "for serialization.", context=context) serialized = codec.encode(data) return serialized # Is it a simple type? if text.serialize_claim(data) or time.serialize_claim(data): # Let json handle it. serialized = data return serialized if paths.serialize_claim(data): serialized = paths.serialize(data) return serialized if numbers.serialize_claim(data): serialized = numbers.serialize(data) return serialized # Mapping? with contextlib.suppress(AttributeError, TypeError): # Do the thing that spawns the exception before # we log about doing the thing... keys = data.keys() self._log_data_processing(self.dotted, "Prepping `Mapping` of data " "for serialization.", context=context) serialized = {} for each in keys: # TODO [2020-07-29]: Change to non-recursive? serialized[str(each)] = self._serialize_prep(data[each], codec, context) return serialized # Iterable with contextlib.suppress(AttributeError, TypeError): # Do the thing that spawns the exception before # we log about doing the thing... iterable = iter(data) self._log_data_processing(self.dotted, "Prepping `Iterable` of data " "for serialization.", context=context) serialized = [] for each in iterable: # TODO [2020-07-29]: Change to non-recursive? serialized.append(self._serialize_prep(each, codec, context)) return serialized # Falling through to here is bad; raise Exception. msg = f"Don't know how to process '{type(data)}' data." self._log_data_processing(self.dotted, msg, context=context, success=False) error = exceptions.WriteError(msg, context=context, data={ 'data': data, }) raise log.exception(error, msg, context=context)