# -*- coding: utf-8 -*- # Copyright 2019 New Vector Ltd # # 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 logging from typing import Any, Callable, List, Optional, Tuple import attr from twisted.internet.interfaces import IConsumer, IPullProducer, IReactorTime from twisted.internet.task import LoopingCall from twisted.web.http import HTTPChannel from synapse.app.generic_worker import ( GenericWorkerReplicationHandler, GenericWorkerServer, ) from synapse.http.server import JsonResource from synapse.http.site import SynapseRequest from synapse.replication.http import ReplicationRestResource, streams from synapse.replication.tcp.handler import ReplicationCommandHandler from synapse.replication.tcp.protocol import ClientReplicationStreamProtocol from synapse.replication.tcp.resource import ReplicationStreamProtocolFactory from synapse.server import HomeServer from synapse.util import Clock from tests import unittest from tests.server import FakeTransport, render logger = logging.getLogger(__name__) class BaseStreamTestCase(unittest.HomeserverTestCase): """Base class for tests of the replication streams""" servlets = [ streams.register_servlets, ] def prepare(self, reactor, clock, hs): # build a replication server server_factory = ReplicationStreamProtocolFactory(hs) self.streamer = hs.get_replication_streamer() self.server = server_factory.buildProtocol(None) # Make a new HomeServer object for the worker self.reactor.lookups["testserv"] = "1.2.3.4" self.worker_hs = self.setup_test_homeserver( http_client=None, homeserverToUse=GenericWorkerServer, config=self._get_worker_hs_config(), reactor=self.reactor, ) # Since we use sqlite in memory databases we need to make sure the # databases objects are the same. self.worker_hs.get_datastore().db_pool = hs.get_datastore().db_pool self.test_handler = self._build_replication_data_handler() self.worker_hs.replication_data_handler = self.test_handler repl_handler = ReplicationCommandHandler(self.worker_hs) self.client = ClientReplicationStreamProtocol( self.worker_hs, "client", "test", clock, repl_handler, ) self._client_transport = None self._server_transport = None def _get_worker_hs_config(self) -> dict: config = self.default_config() config["worker_app"] = "synapse.app.generic_worker" config["worker_replication_host"] = "testserv" config["worker_replication_http_port"] = "8765" return config def _build_replication_data_handler(self): return TestReplicationDataHandler(self.worker_hs) def reconnect(self): if self._client_transport: self.client.close() if self._server_transport: self.server.close() self._client_transport = FakeTransport(self.server, self.reactor) self.client.makeConnection(self._client_transport) self._server_transport = FakeTransport(self.client, self.reactor) self.server.makeConnection(self._server_transport) def disconnect(self): if self._client_transport: self._client_transport = None self.client.close() if self._server_transport: self._server_transport = None self.server.close() def replicate(self): """Tell the master side of replication that something has happened, and then wait for the replication to occur. """ self.streamer.on_notifier_poke() self.pump(0.1) def handle_http_replication_attempt(self) -> SynapseRequest: """Asserts that a connection attempt was made to the master HS on the HTTP replication port, then proxies it to the master HS object to be handled. Returns: The request object received by master HS. """ # We should have an outbound connection attempt. clients = self.reactor.tcpClients self.assertEqual(len(clients), 1) (host, port, client_factory, _timeout, _bindAddress) = clients.pop(0) self.assertEqual(host, "1.2.3.4") self.assertEqual(port, 8765) # Set up client side protocol client_protocol = client_factory.buildProtocol(None) request_factory = OneShotRequestFactory() # Set up the server side protocol channel = _PushHTTPChannel(self.reactor) channel.requestFactory = request_factory channel.site = self.site # Connect client to server and vice versa. client_to_server_transport = FakeTransport( channel, self.reactor, client_protocol ) client_protocol.makeConnection(client_to_server_transport) server_to_client_transport = FakeTransport( client_protocol, self.reactor, channel ) channel.makeConnection(server_to_client_transport) # The request will now be processed by `self.site` and the response # streamed back. self.reactor.advance(0) # We tear down the connection so it doesn't get reused without our # knowledge. server_to_client_transport.loseConnection() client_to_server_transport.loseConnection() return request_factory.request def assert_request_is_get_repl_stream_updates( self, request: SynapseRequest, stream_name: str ): """Asserts that the given request is a HTTP replication request for fetching updates for given stream. """ self.assertRegex( request.path, br"^/_synapse/replication/get_repl_stream_updates/%s/[^/]+$" % (stream_name.encode("ascii"),), ) self.assertEqual(request.method, b"GET") class BaseMultiWorkerStreamTestCase(unittest.HomeserverTestCase): """Base class for tests running multiple workers. Automatically handle HTTP replication requests from workers to master, unlike `BaseStreamTestCase`. """ servlets = [] # type: List[Callable[[HomeServer, JsonResource], None]] def setUp(self): super().setUp() # build a replication server self.server_factory = ReplicationStreamProtocolFactory(self.hs) self.streamer = self.hs.get_replication_streamer() store = self.hs.get_datastore() self.database_pool = store.db_pool self.reactor.lookups["testserv"] = "1.2.3.4" self._worker_hs_to_resource = {} # When we see a connection attempt to the master replication listener we # automatically set up the connection. This is so that tests don't # manually have to go and explicitly set it up each time (plus sometimes # it is impossible to write the handling explicitly in the tests). self.reactor.add_tcp_client_callback( "1.2.3.4", 8765, self._handle_http_replication_attempt ) def create_test_json_resource(self): """Overrides `HomeserverTestCase.create_test_json_resource`. """ # We override this so that it automatically registers all the HTTP # replication servlets, without having to explicitly do that in all # subclassses. resource = ReplicationRestResource(self.hs) for servlet in self.servlets: servlet(self.hs, resource) return resource def make_worker_hs( self, worker_app: str, extra_config: dict = {}, **kwargs ) -> HomeServer: """Make a new worker HS instance, correctly connecting replcation stream to the master HS. Args: worker_app: Type of worker, e.g. `synapse.app.federation_sender`. extra_config: Any extra config to use for this instances. **kwargs: Options that get passed to `self.setup_test_homeserver`, useful to e.g. pass some mocks for things like `http_client` Returns: The new worker HomeServer instance. """ config = self._get_worker_hs_config() config["worker_app"] = worker_app config.update(extra_config) worker_hs = self.setup_test_homeserver( homeserverToUse=GenericWorkerServer, config=config, reactor=self.reactor, **kwargs ) store = worker_hs.get_datastore() store.db_pool._db_pool = self.database_pool._db_pool repl_handler = ReplicationCommandHandler(worker_hs) client = ClientReplicationStreamProtocol( worker_hs, "client", "test", self.clock, repl_handler, ) server = self.server_factory.buildProtocol(None) client_transport = FakeTransport(server, self.reactor) client.makeConnection(client_transport) server_transport = FakeTransport(client, self.reactor) server.makeConnection(server_transport) # Set up a resource for the worker resource = ReplicationRestResource(self.hs) for servlet in self.servlets: servlet(worker_hs, resource) self._worker_hs_to_resource[worker_hs] = resource return worker_hs def _get_worker_hs_config(self) -> dict: config = self.default_config() config["worker_replication_host"] = "testserv" config["worker_replication_http_port"] = "8765" return config def render_on_worker(self, worker_hs: HomeServer, request: SynapseRequest): render(request, self._worker_hs_to_resource[worker_hs], self.reactor) def replicate(self): """Tell the master side of replication that something has happened, and then wait for the replication to occur. """ self.streamer.on_notifier_poke() self.pump() def _handle_http_replication_attempt(self): """Handles a connection attempt to the master replication HTTP listener. """ # We should have at least one outbound connection attempt, where the # last is one to the HTTP repication IP/port. clients = self.reactor.tcpClients self.assertGreaterEqual(len(clients), 1) (host, port, client_factory, _timeout, _bindAddress) = clients.pop() self.assertEqual(host, "1.2.3.4") self.assertEqual(port, 8765) # Set up client side protocol client_protocol = client_factory.buildProtocol(None) request_factory = OneShotRequestFactory() # Set up the server side protocol channel = _PushHTTPChannel(self.reactor) channel.requestFactory = request_factory channel.site = self.site # Connect client to server and vice versa. client_to_server_transport = FakeTransport( channel, self.reactor, client_protocol ) client_protocol.makeConnection(client_to_server_transport) server_to_client_transport = FakeTransport( client_protocol, self.reactor, channel ) channel.makeConnection(server_to_client_transport) # Note: at this point we've wired everything up, but we need to return # before the data starts flowing over the connections as this is called # inside `connecTCP` before the connection has been passed back to the # code that requested the TCP connection. class TestReplicationDataHandler(GenericWorkerReplicationHandler): """Drop-in for ReplicationDataHandler which just collects RDATA rows""" def __init__(self, hs: HomeServer): super().__init__(hs) # list of received (stream_name, token, row) tuples self.received_rdata_rows = [] # type: List[Tuple[str, int, Any]] async def on_rdata(self, stream_name, instance_name, token, rows): await super().on_rdata(stream_name, instance_name, token, rows) for r in rows: self.received_rdata_rows.append((stream_name, token, r)) @attr.s() class OneShotRequestFactory: """A simple request factory that generates a single `SynapseRequest` and stores it for future use. Can only be used once. """ request = attr.ib(default=None) def __call__(self, *args, **kwargs): assert self.request is None self.request = SynapseRequest(*args, **kwargs) return self.request class _PushHTTPChannel(HTTPChannel): """A HTTPChannel that wraps pull producers to push producers. This is a hack to get around the fact that HTTPChannel transparently wraps a pull producer (which is what Synapse uses to reply to requests) with `_PullToPush` to convert it to a push producer. Unfortunately `_PullToPush` uses the standard reactor rather than letting us use our test reactor, which makes it very hard to test. """ def __init__(self, reactor: IReactorTime): super().__init__() self.reactor = reactor self._pull_to_push_producer = None # type: Optional[_PullToPushProducer] def registerProducer(self, producer, streaming): # Convert pull producers to push producer. if not streaming: self._pull_to_push_producer = _PullToPushProducer( self.reactor, producer, self ) producer = self._pull_to_push_producer super().registerProducer(producer, True) def unregisterProducer(self): if self._pull_to_push_producer: # We need to manually stop the _PullToPushProducer. self._pull_to_push_producer.stop() def checkPersistence(self, request, version): """Check whether the connection can be re-used """ # We hijack this to always say no for ease of wiring stuff up in # `handle_http_replication_attempt`. request.responseHeaders.setRawHeaders(b"connection", [b"close"]) return False class _PullToPushProducer: """A push producer that wraps a pull producer. """ def __init__( self, reactor: IReactorTime, producer: IPullProducer, consumer: IConsumer ): self._clock = Clock(reactor) self._producer = producer self._consumer = consumer # While running we use a looping call with a zero delay to call # resumeProducing on given producer. self._looping_call = None # type: Optional[LoopingCall] # We start writing next reactor tick. self._start_loop() def _start_loop(self): """Start the looping call to """ if not self._looping_call: # Start a looping call which runs every tick. self._looping_call = self._clock.looping_call(self._run_once, 0) def stop(self): """Stops calling resumeProducing. """ if self._looping_call: self._looping_call.stop() self._looping_call = None def pauseProducing(self): """Implements IPushProducer """ self.stop() def resumeProducing(self): """Implements IPushProducer """ self._start_loop() def stopProducing(self): """Implements IPushProducer """ self.stop() self._producer.stopProducing() def _run_once(self): """Calls resumeProducing on producer once. """ try: self._producer.resumeProducing() except Exception: logger.exception("Failed to call resumeProducing") try: self._consumer.unregisterProducer() except Exception: pass self.stopProducing()