Exemplo n.º 1
0
    def test_fastforward_lock(self):
        repository = Repository(
            EventStore(
                mapper=Mapper(transcoder=JSONTranscoder()),
                recorder=POPOAggregateRecorder(),
            ),
            cache_maxsize=2,
        )
        cache_maxsize = repository._fastforward_locks_cache.maxsize
        aggregate_ids = [uuid4() for i in range(cache_maxsize + 1)]
        self.assertEqual(0, len(repository._fastforward_locks_inuse))
        self.assertEqual(0, len(repository._fastforward_locks_cache.cache))

        # Use a lock and check it's "in use".
        repository._use_fastforward_lock(aggregate_ids[0])
        self.assertEqual(1, len(repository._fastforward_locks_inuse))
        self.assertEqual(0, len(repository._fastforward_locks_cache.cache))
        self.assertEqual(
            1, repository._fastforward_locks_inuse[aggregate_ids[0]][1])

        # Disuse a lock and check it's "cached" and not "in use".
        repository._disuse_fastforward_lock(aggregate_ids[0])
        self.assertEqual(0, len(repository._fastforward_locks_inuse))
        self.assertEqual(1, len(repository._fastforward_locks_cache.cache))

        # Use two locks and check it's "in use" by two users.
        repository._use_fastforward_lock(aggregate_ids[0])
        repository._use_fastforward_lock(aggregate_ids[0])
        self.assertEqual(1, len(repository._fastforward_locks_inuse))
        self.assertEqual(0, len(repository._fastforward_locks_cache.cache))
        self.assertEqual(
            2, repository._fastforward_locks_inuse[aggregate_ids[0]][1])

        # Disuse the lock and check it's still "in use" by one user.
        repository._disuse_fastforward_lock(aggregate_ids[0])
        self.assertEqual(1, len(repository._fastforward_locks_inuse))
        self.assertEqual(0, len(repository._fastforward_locks_cache.cache))
        self.assertEqual(
            1, repository._fastforward_locks_inuse[aggregate_ids[0]][1])

        # Disuse the lock and check it's cached and not "in use".
        repository._disuse_fastforward_lock(aggregate_ids[0])
        self.assertEqual(0, len(repository._fastforward_locks_inuse))
        self.assertEqual(1, len(repository._fastforward_locks_cache.cache))

        # Use more locks that the cache holds.
        for aggregate_id in aggregate_ids:
            repository._use_fastforward_lock(aggregate_id)
        self.assertEqual(len(aggregate_ids),
                         len(repository._fastforward_locks_inuse))
        self.assertEqual(0, len(repository._fastforward_locks_cache.cache))

        # Disuse all the locks and check the cache has evicted one.
        self.assertEqual(len(aggregate_ids), cache_maxsize + 1)
        for aggregate_id in aggregate_ids:
            repository._disuse_fastforward_lock(aggregate_id)
        self.assertEqual(0, len(repository._fastforward_locks_inuse))
        self.assertEqual(
            len(aggregate_ids) - 1,
            len(repository._fastforward_locks_cache.cache))
Exemplo n.º 2
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    def test_cache_raises_aggregate_not_found_when_projector_func_returns_none(
            self):
        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())
        transcoder.register(EmailAddressAsStr())

        event_recorder = SQLiteAggregateRecorder(SQLiteDatastore(":memory:"))
        event_recorder.create_table()
        event_store = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=event_recorder,
        )
        repository = Repository(
            event_store,
            cache_maxsize=2,
        )

        aggregate = Aggregate()
        event_store.put(aggregate.collect_events())
        self.assertEqual(1, repository.get(aggregate.id).version)

        aggregate.trigger_event(Aggregate.Event)
        event_store.put(aggregate.collect_events())
        with self.assertRaises(AggregateNotFound):
            repository.get(aggregate.id, projector_func=lambda _, __: None)
Exemplo n.º 3
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    def test_cache_fastforward_false(self):
        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())
        transcoder.register(EmailAddressAsStr())

        event_recorder = SQLiteAggregateRecorder(SQLiteDatastore(":memory:"))
        event_recorder.create_table()
        event_store = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=event_recorder,
        )
        repository = Repository(
            event_store,
            cache_maxsize=2,
            fastforward=False,
        )

        aggregate = Aggregate()
        event_store.put(aggregate.collect_events())
        self.assertEqual(1, repository.get(aggregate.id).version)

        aggregate.trigger_event(Aggregate.Event)
        event_store.put(aggregate.collect_events())
        self.assertEqual(1, repository.get(aggregate.id).version)
    def test(self):
        # Open an account.
        account = BankAccount.open(
            full_name="Alice",
            email_address="*****@*****.**",
        )

        # Credit the account.
        account.append_transaction(Decimal("10.00"))
        account.append_transaction(Decimal("25.00"))
        account.append_transaction(Decimal("30.00"))

        # Collect pending events.
        pending = account.collect_events()

        # Construct event store.
        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())
        transcoder.register(EmailAddressAsStr())
        recorder = SQLiteAggregateRecorder(SQLiteDatastore(":memory:"))
        event_store = EventStore(
            mapper=Mapper(transcoder),
            recorder=recorder,
        )
        recorder.create_table()

        # Get last event.
        last_event = event_store.get(account.id, desc=True, limit=1)
        assert list(last_event) == []

        # Store pending events.
        event_store.put(pending)

        # Get domain events.
        domain_events = event_store.get(account.id)

        # Reconstruct the bank account.
        copy = None
        for domain_event in domain_events:
            copy = domain_event.mutate(copy)

        # Check copy has correct attribute values.
        assert copy.id == account.id
        assert copy.balance == Decimal("65.00")

        # Get last event.
        events = event_store.get(account.id, desc=True, limit=1)
        events = list(events)
        assert len(events) == 1
        last_event = events[0]

        assert last_event.originator_id == account.id
        assert type(last_event) == BankAccount.TransactionAppended
    def test(self):
        # Open an account.
        account = BankAccount.open(
            full_name="Alice",
            email_address="*****@*****.**",
        )

        # Credit the account.
        account.append_transaction(Decimal("10.00"))
        account.append_transaction(Decimal("25.00"))
        account.append_transaction(Decimal("30.00"))

        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())
        transcoder.register(EmailAddressAsStr())

        snapshot_store = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=SQLiteAggregateRecorder(
                SQLiteDatastore(":memory:"),
                events_table_name="snapshots",
            ),
        )
        snapshot_store.recorder.create_table()

        # Clear pending events.
        account.collect_events()

        # Take a snapshot.
        snapshot = Snapshot.take(account)

        self.assertNotIn("pending_events", snapshot.state)

        # Store snapshot.
        snapshot_store.put([snapshot])

        # Get snapshot.
        snapshots = snapshot_store.get(account.id, desc=True, limit=1)
        snapshot = next(snapshots)
        assert isinstance(snapshot, Snapshot)

        # Reconstruct the bank account.
        copy = snapshot.mutate()
        assert isinstance(copy, BankAccount)

        # Check copy has correct attribute values.
        assert copy.id == account.id
        assert copy.balance == Decimal("65.00")
Exemplo n.º 6
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    def test_contains(self):
        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())

        event_recorder = POPOAggregateRecorder()
        event_store = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=event_recorder,
        )

        aggregate = Aggregate()
        event_store.put(aggregate.collect_events())

        repository = Repository(event_store)
        self.assertTrue(aggregate.id in repository)
        self.assertFalse(uuid4() in repository)
    def test_subclasses(self) -> None:
        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())

        event_recorder = POPOAggregateRecorder()
        event_store = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=event_recorder,
        )

        # Subclass LogEvent.
        class TransactionLogEvent(LogEvent):
            pass

        class AccountCredited(TransactionLogEvent):
            pass

        class AccountDebited(TransactionLogEvent):
            pass

        # Subclass EventSourcedLog.
        class TransactionLog(EventSourcedLog[TransactionLogEvent]):
            def account_credited(self) -> AccountCredited:
                return self._trigger_event(logged_cls=AccountCredited)

            def account_debited(self) -> AccountDebited:
                return self._trigger_event(logged_cls=AccountDebited)

        transaction_log = TransactionLog(
            events=event_store,
            originator_id=uuid5(NAMESPACE_URL, "/aggregates"),
            logged_cls=TransactionLogEvent,
        )

        account_credited = transaction_log.account_credited()
        self.assertIsInstance(account_credited, AccountCredited)

        account_debited = transaction_log.account_debited()
        self.assertIsInstance(account_debited, AccountDebited)
Exemplo n.º 8
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    def test_cache_maxsize_nonzero(self):
        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())
        transcoder.register(EmailAddressAsStr())

        event_recorder = SQLiteAggregateRecorder(SQLiteDatastore(":memory:"))
        event_recorder.create_table()
        event_store = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=event_recorder,
        )
        repository = Repository(event_store, cache_maxsize=2)
        self.assertEqual(type(repository.cache), LRUCache)

        aggregate1 = Aggregate()
        self.assertFalse(aggregate1.id in repository)
        event_store.put(aggregate1.collect_events())
        self.assertTrue(aggregate1.id in repository)

        aggregate2 = Aggregate()
        self.assertFalse(aggregate2.id in repository)
        event_store.put(aggregate2.collect_events())
        self.assertTrue(aggregate2.id in repository)

        aggregate3 = Aggregate()
        self.assertFalse(aggregate3.id in repository)
        event_store.put(aggregate3.collect_events())
        self.assertTrue(aggregate3.id in repository)

        self.assertFalse(aggregate1.id in repository.cache.cache)

        self.assertEqual(1, repository.get(aggregate1.id).version)
        self.assertEqual(1, repository.get(aggregate2.id).version)
        self.assertEqual(1, repository.get(aggregate3.id).version)

        aggregate1.trigger_event(Aggregate.Event)
        event_store.put(aggregate1.collect_events())
        self.assertEqual(2, repository.get(aggregate1.id).version)
Exemplo n.º 9
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    def test_with_snapshot_store(self) -> None:
        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())

        event_recorder = SQLiteAggregateRecorder(SQLiteDatastore(":memory:"))
        event_recorder.create_table()
        event_store: EventStore[Aggregate.Event] = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=event_recorder,
        )
        snapshot_recorder = SQLiteAggregateRecorder(SQLiteDatastore(":memory:"))
        snapshot_recorder.create_table()
        snapshot_store: EventStore[Snapshot] = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=snapshot_recorder,
        )
        repository: Repository = Repository(event_store, snapshot_store)

        # Check key error.
        with self.assertRaises(AggregateNotFound):
            repository.get(uuid4())

        # Open an account.
        account = BankAccount.open(
            full_name="Alice",
            email_address="*****@*****.**",
        )

        # Credit the account.
        account.append_transaction(Decimal("10.00"))
        account.append_transaction(Decimal("25.00"))
        account.append_transaction(Decimal("30.00"))

        # Collect pending events.
        pending = account.collect_events()

        # Store pending events.
        event_store.put(pending)

        copy = repository.get(account.id)
        assert isinstance(copy, BankAccount)
        # Check copy has correct attribute values.
        assert copy.id == account.id
        assert copy.balance == Decimal("65.00")

        snapshot = Snapshot(
            originator_id=account.id,
            originator_version=account.version,
            timestamp=datetime.now(tz=TZINFO),
            topic=get_topic(type(account)),
            state=account.__dict__,
        )
        snapshot_store.put([snapshot])

        copy2 = repository.get(account.id)
        assert isinstance(copy2, BankAccount)

        # Check copy has correct attribute values.
        assert copy2.id == account.id
        assert copy2.balance == Decimal("65.00")

        # Credit the account.
        account.append_transaction(Decimal("10.00"))
        event_store.put(account.collect_events())

        # Check copy has correct attribute values.
        copy3 = repository.get(account.id)
        assert isinstance(copy3, BankAccount)

        assert copy3.id == account.id
        assert copy3.balance == Decimal("75.00")

        # Check can get old version of account.
        copy4 = repository.get(account.id, version=copy.version)
        assert isinstance(copy4, BankAccount)
        assert copy4.balance == Decimal("65.00")

        copy5 = repository.get(account.id, version=1)
        assert isinstance(copy5, BankAccount)
        assert copy5.balance == Decimal("0.00")

        copy6 = repository.get(account.id, version=2)
        assert isinstance(copy6, BankAccount)
        assert copy6.balance == Decimal("10.00")

        copy7 = repository.get(account.id, version=3)
        assert isinstance(copy7, BankAccount)
        assert copy7.balance == Decimal("35.00"), copy7.balance

        copy8 = repository.get(account.id, version=4)
        assert isinstance(copy8, BankAccount)
        assert copy8.balance == Decimal("65.00"), copy8.balance
    def test_logging_aggregate_ids(self) -> None:
        class LoggedID(LogEvent):
            aggregate_id: UUID

        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())

        event_recorder = POPOAggregateRecorder()
        event_store = EventStore(
            mapper=Mapper(transcoder=transcoder),
            recorder=event_recorder,
        )

        log: EventSourcedLog[LoggedID] = EventSourcedLog(
            events=event_store,
            originator_id=uuid5(NAMESPACE_URL, "/aggregates"),
            logged_cls=LoggedID,
        )
        id1 = uuid4()
        id2 = uuid4()
        id3 = uuid4()

        self.assertEqual(log.get_first(), None)
        self.assertEqual(log.get_last(), None)
        logged = log.trigger_event(aggregate_id=id1)
        event_store.put([logged])
        first = log.get_first()
        assert first
        self.assertEqual(first.aggregate_id, id1)
        last = log.get_last()
        assert last
        self.assertEqual(last.aggregate_id, id1)
        logged = log.trigger_event(aggregate_id=id2)
        event_store.put([logged])
        last = log.get_last()
        assert last
        self.assertEqual(last.aggregate_id, id2)
        logged = log.trigger_event(aggregate_id=id3, next_originator_version=3)
        event_store.put([logged])
        last = log.get_last()
        assert last
        self.assertEqual(last.aggregate_id, id3)
        first = log.get_first()
        assert first
        self.assertEqual(first.aggregate_id, id1)

        ids = [e.aggregate_id for e in log.get()]
        self.assertEqual(ids, [id1, id2, id3])

        ids = [e.aggregate_id for e in log.get(gt=1)]
        self.assertEqual(ids, [id2, id3])

        ids = [e.aggregate_id for e in log.get(lte=2)]
        self.assertEqual(ids, [id1, id2])

        ids = [e.aggregate_id for e in log.get(limit=1)]
        self.assertEqual(ids, [id1])

        ids = [e.aggregate_id for e in log.get(desc=True)]
        self.assertEqual(ids, [id3, id2, id1])
Exemplo n.º 11
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    def test(self):
        # Construct transcoder.
        transcoder = JSONTranscoder()
        transcoder.register(UUIDAsHex())
        transcoder.register(DecimalAsStr())
        transcoder.register(DatetimeAsISO())

        # Construct cipher.
        cipher = AESCipher(cipher_key=AESCipher.create_key(16))

        # Construct compressor.
        compressor = ZlibCompressor()

        # Construct mapper with cipher.
        mapper = Mapper(transcoder=transcoder, cipher=cipher)

        # Create a domain event.
        domain_event = BankAccount.TransactionAppended(
            originator_id=uuid4(),
            originator_version=123456,
            timestamp=datetime.now(tz=TZINFO),
            amount=Decimal("10.00"),
        )

        # Map from domain event.
        stored_event = mapper.from_domain_event(domain_event)

        # Map to domain event.
        copy = mapper.to_domain_event(stored_event)

        # Check values are not visible.
        assert "Alice" not in str(stored_event.state)

        # Check decrypted copy has correct values.
        assert copy.originator_id == domain_event.originator_id
        assert copy.originator_version == domain_event.originator_version
        assert copy.timestamp == domain_event.timestamp, copy.timestamp
        assert copy.originator_version == domain_event.originator_version

        assert len(stored_event.state) == 171, len(stored_event.state)

        # Construct mapper with cipher and compressor.
        mapper = Mapper(
            transcoder=transcoder,
            cipher=cipher,
            compressor=compressor,
        )

        # Map from domain event.
        stored_event = mapper.from_domain_event(domain_event)

        # Map to domain event.
        copy = mapper.to_domain_event(stored_event)

        # Check decompressed copy has correct values.
        assert copy.originator_id == domain_event.originator_id
        assert copy.originator_version == domain_event.originator_version

        assert len(stored_event.state) in (
            135,
            136,
            137,
            138,
            139,
            140,
            141,
            142,
            143,
        ), len(stored_event.state)