forked-synapse/tests/replication/test_sharded_event_persister.py

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#
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# This file is licensed under the Affero General Public License (AGPL) version 3.
#
# Copyright 2020 The Matrix.org Foundation C.I.C.
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# Copyright (C) 2023 New Vector, Ltd
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# See the GNU Affero General Public License for more details:
# <https://www.gnu.org/licenses/agpl-3.0.html>.
#
# Originally licensed under the Apache License, Version 2.0:
# <http://www.apache.org/licenses/LICENSE-2.0>.
#
# [This file includes modifications made by New Vector Limited]
#
#
import logging
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from unittest.mock import patch
from twisted.test.proto_helpers import MemoryReactor
from synapse.rest import admin
from synapse.rest.client import login, room, sync
from synapse.server import HomeServer
from synapse.storage.util.id_generators import MultiWriterIdGenerator
from synapse.util import Clock
from tests.replication._base import BaseMultiWorkerStreamTestCase
from tests.server import make_request
logger = logging.getLogger(__name__)
class EventPersisterShardTestCase(BaseMultiWorkerStreamTestCase):
"""Checks event persisting sharding works"""
servlets = [
admin.register_servlets_for_client_rest_resource,
room.register_servlets,
login.register_servlets,
sync.register_servlets,
]
def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None:
# Register a user who sends a message that we'll get notified about
self.other_user_id = self.register_user("otheruser", "pass")
self.other_access_token = self.login("otheruser", "pass")
self.room_creator = self.hs.get_room_creation_handler()
self.store = hs.get_datastores().main
def default_config(self) -> dict:
conf = super().default_config()
conf["stream_writers"] = {"events": ["worker1", "worker2"]}
conf["instance_map"] = {
"main": {"host": "testserv", "port": 8765},
"worker1": {"host": "testserv", "port": 1001},
"worker2": {"host": "testserv", "port": 1002},
}
return conf
def _create_room(self, room_id: str, user_id: str, tok: str) -> None:
"""Create a room with given room_id"""
# We control the room ID generation by patching out the
# `_generate_room_id` method
with patch(
"synapse.handlers.room.RoomCreationHandler._generate_room_id"
) as mock:
mock.side_effect = lambda: room_id
self.helper.create_room_as(user_id, tok=tok)
def test_basic(self) -> None:
"""Simple test to ensure that multiple rooms can be created and joined,
and that different rooms get handled by different instances.
"""
self.make_worker_hs(
"synapse.app.generic_worker",
{"worker_name": "worker1"},
)
self.make_worker_hs(
"synapse.app.generic_worker",
{"worker_name": "worker2"},
)
persisted_on_1 = False
persisted_on_2 = False
store = self.hs.get_datastores().main
user_id = self.register_user("user", "pass")
access_token = self.login("user", "pass")
# Keep making new rooms until we see rooms being persisted on both
# workers.
for _ in range(10):
# Create a room
room = self.helper.create_room_as(user_id, tok=access_token)
# The other user joins
self.helper.join(
room=room, user=self.other_user_id, tok=self.other_access_token
)
# The other user sends some messages
rseponse = self.helper.send(room, body="Hi!", tok=self.other_access_token)
event_id = rseponse["event_id"]
# The event position includes which instance persisted the event.
pos = self.get_success(store.get_position_for_event(event_id))
persisted_on_1 |= pos.instance_name == "worker1"
persisted_on_2 |= pos.instance_name == "worker2"
if persisted_on_1 and persisted_on_2:
break
self.assertTrue(persisted_on_1)
self.assertTrue(persisted_on_2)
def test_vector_clock_token(self) -> None:
"""Tests that using a stream token with a vector clock component works
correctly with basic /sync and /messages usage.
"""
self.make_worker_hs(
"synapse.app.generic_worker",
{"worker_name": "worker1"},
)
worker_hs2 = self.make_worker_hs(
"synapse.app.generic_worker",
{"worker_name": "worker2"},
)
sync_hs = self.make_worker_hs(
"synapse.app.generic_worker",
{"worker_name": "sync"},
)
sync_hs_site = self._hs_to_site[sync_hs]
# Specially selected room IDs that get persisted on different workers.
room_id1 = "!foo:test"
room_id2 = "!baz:test"
self.assertEqual(
self.hs.config.worker.events_shard_config.get_instance(room_id1), "worker1"
)
self.assertEqual(
self.hs.config.worker.events_shard_config.get_instance(room_id2), "worker2"
)
user_id = self.register_user("user", "pass")
access_token = self.login("user", "pass")
store = self.hs.get_datastores().main
# Create two room on the different workers.
self._create_room(room_id1, user_id, access_token)
self._create_room(room_id2, user_id, access_token)
# The other user joins
self.helper.join(
room=room_id1, user=self.other_user_id, tok=self.other_access_token
)
self.helper.join(
room=room_id2, user=self.other_user_id, tok=self.other_access_token
)
# Do an initial sync so that we're up to date.
channel = make_request(
self.reactor, sync_hs_site, "GET", "/sync", access_token=access_token
)
next_batch = channel.json_body["next_batch"]
# We now gut wrench into the events stream MultiWriterIdGenerator on
# worker2 to mimic it getting stuck persisting an event. This ensures
# that when we send an event on worker1 we end up in a state where
# worker2 events stream position lags that on worker1, resulting in a
# RoomStreamToken with a non-empty instance map component.
#
# Worker2's event stream position will not advance until we call
# __aexit__ again.
worker_store2 = worker_hs2.get_datastores().main
assert isinstance(worker_store2._stream_id_gen, MultiWriterIdGenerator)
actx = worker_store2._stream_id_gen.get_next()
self.get_success(actx.__aenter__())
response = self.helper.send(room_id1, body="Hi!", tok=self.other_access_token)
first_event_in_room1 = response["event_id"]
# Assert that the current stream token has an instance map component, as
# we are trying to test vector clock tokens.
room_stream_token = store.get_room_max_token()
self.assertNotEqual(len(room_stream_token.instance_map), 0)
# Check that syncing still gets the new event, despite the gap in the
# stream IDs.
channel = make_request(
self.reactor,
sync_hs_site,
"GET",
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f"/sync?since={next_batch}",
access_token=access_token,
)
# We should only see the new event and nothing else
self.assertIn(room_id1, channel.json_body["rooms"]["join"])
self.assertNotIn(room_id2, channel.json_body["rooms"]["join"])
events = channel.json_body["rooms"]["join"][room_id1]["timeline"]["events"]
self.assertListEqual(
[first_event_in_room1], [event["event_id"] for event in events]
)
# Get the next batch and makes sure its a vector clock style token.
vector_clock_token = channel.json_body["next_batch"]
self.assertTrue(vector_clock_token.startswith("m"))
# Now that we've got a vector clock token we finish the fake persisting
# an event we started above.
self.get_success(actx.__aexit__(None, None, None))
# Now try and send an event to the other rooom so that we can test that
# the vector clock style token works as a `since` token.
response = self.helper.send(room_id2, body="Hi!", tok=self.other_access_token)
first_event_in_room2 = response["event_id"]
channel = make_request(
self.reactor,
sync_hs_site,
"GET",
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f"/sync?since={vector_clock_token}",
access_token=access_token,
)
self.assertNotIn(room_id1, channel.json_body["rooms"]["join"])
self.assertIn(room_id2, channel.json_body["rooms"]["join"])
events = channel.json_body["rooms"]["join"][room_id2]["timeline"]["events"]
self.assertListEqual(
[first_event_in_room2], [event["event_id"] for event in events]
)
next_batch = channel.json_body["next_batch"]
# We also want to test that the vector clock style token works with
# pagination. We do this by sending a couple of new events into the room
# and syncing again to get a prev_batch token for each room, then
# paginating from there back to the vector clock token.
self.helper.send(room_id1, body="Hi again!", tok=self.other_access_token)
self.helper.send(room_id2, body="Hi again!", tok=self.other_access_token)
channel = make_request(
self.reactor,
sync_hs_site,
"GET",
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f"/sync?since={next_batch}",
access_token=access_token,
)
prev_batch1 = channel.json_body["rooms"]["join"][room_id1]["timeline"][
"prev_batch"
]
prev_batch2 = channel.json_body["rooms"]["join"][room_id2]["timeline"][
"prev_batch"
]
# Paginating back in the first room should not produce any results, as
# no events have happened in it. This tests that we are correctly
# filtering results based on the vector clock portion.
channel = make_request(
self.reactor,
sync_hs_site,
"GET",
"/rooms/{}/messages?from={}&to={}&dir=b".format(
room_id1, prev_batch1, vector_clock_token
),
access_token=access_token,
)
self.assertListEqual([], channel.json_body["chunk"])
# Paginating back on the second room should produce the first event
# again. This tests that pagination isn't completely broken.
channel = make_request(
self.reactor,
sync_hs_site,
"GET",
"/rooms/{}/messages?from={}&to={}&dir=b".format(
room_id2, prev_batch2, vector_clock_token
),
access_token=access_token,
)
self.assertEqual(len(channel.json_body["chunk"]), 1)
self.assertEqual(
channel.json_body["chunk"][0]["event_id"], first_event_in_room2
)
# Paginating forwards should give the same results
channel = make_request(
self.reactor,
sync_hs_site,
"GET",
"/rooms/{}/messages?from={}&to={}&dir=f".format(
room_id1, vector_clock_token, prev_batch1
),
access_token=access_token,
)
self.assertListEqual([], channel.json_body["chunk"])
channel = make_request(
self.reactor,
sync_hs_site,
"GET",
"/rooms/{}/messages?from={}&to={}&dir=f".format(
room_id2,
vector_clock_token,
prev_batch2,
),
access_token=access_token,
)
self.assertEqual(len(channel.json_body["chunk"]), 1)
self.assertEqual(
channel.json_body["chunk"][0]["event_id"], first_event_in_room2
)