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- # Copyright 2020 The Matrix.org Foundation C.I.C.
- #
- # 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.
- from unittest.mock import Mock
- from twisted.internet import defer
- from synapse.api.constants import EduTypes, EventTypes
- from synapse.events import EventBase
- from synapse.federation.units import Transaction
- from synapse.handlers.presence import UserPresenceState
- from synapse.rest import admin
- from synapse.rest.client import login, presence, profile, room
- from synapse.types import create_requester
- from tests.events.test_presence_router import send_presence_update, sync_presence
- from tests.replication._base import BaseMultiWorkerStreamTestCase
- from tests.test_utils import simple_async_mock
- from tests.test_utils.event_injection import inject_member_event
- from tests.unittest import HomeserverTestCase, override_config
- from tests.utils import USE_POSTGRES_FOR_TESTS
- class ModuleApiTestCase(HomeserverTestCase):
- servlets = [
- admin.register_servlets,
- login.register_servlets,
- room.register_servlets,
- presence.register_servlets,
- profile.register_servlets,
- ]
- def prepare(self, reactor, clock, homeserver):
- self.store = homeserver.get_datastore()
- self.module_api = homeserver.get_module_api()
- self.event_creation_handler = homeserver.get_event_creation_handler()
- self.sync_handler = homeserver.get_sync_handler()
- self.auth_handler = homeserver.get_auth_handler()
- def make_homeserver(self, reactor, clock):
- # Mock out the calls over federation.
- fed_transport_client = Mock(spec=["send_transaction"])
- fed_transport_client.send_transaction = simple_async_mock({})
- return self.setup_test_homeserver(
- federation_transport_client=fed_transport_client,
- )
- def test_can_register_user(self):
- """Tests that an external module can register a user"""
- # Register a new user
- user_id, access_token = self.get_success(
- self.module_api.register(
- "bob", displayname="Bobberino", emails=["bob@bobinator.bob"]
- )
- )
- # Check that the new user exists with all provided attributes
- self.assertEqual(user_id, "@bob:test")
- self.assertTrue(access_token)
- self.assertTrue(self.get_success(self.store.get_user_by_id(user_id)))
- # Check that the email was assigned
- emails = self.get_success(self.store.user_get_threepids(user_id))
- self.assertEqual(len(emails), 1)
- email = emails[0]
- self.assertEqual(email["medium"], "email")
- self.assertEqual(email["address"], "bob@bobinator.bob")
- # Should these be 0?
- self.assertEqual(email["validated_at"], 0)
- self.assertEqual(email["added_at"], 0)
- # Check that the displayname was assigned
- displayname = self.get_success(self.store.get_profile_displayname("bob"))
- self.assertEqual(displayname, "Bobberino")
- def test_get_userinfo_by_id(self):
- user_id = self.register_user("alice", "1234")
- found_user = self.get_success(self.module_api.get_userinfo_by_id(user_id))
- self.assertEqual(found_user.user_id.to_string(), user_id)
- self.assertIdentical(found_user.is_admin, False)
- def test_get_userinfo_by_id__no_user_found(self):
- found_user = self.get_success(self.module_api.get_userinfo_by_id("@alice:test"))
- self.assertIsNone(found_user)
- def test_get_user_ip_and_agents(self):
- user_id = self.register_user("test_get_user_ip_and_agents_user", "1234")
- # Initially, we should have no ip/agent for our user.
- info = self.get_success(self.module_api.get_user_ip_and_agents(user_id))
- self.assertEqual(info, [])
- # Insert a first ip, agent. We should be able to retrieve it.
- self.get_success(
- self.store.insert_client_ip(
- user_id, "access_token", "ip_1", "user_agent_1", "device_1", None
- )
- )
- info = self.get_success(self.module_api.get_user_ip_and_agents(user_id))
- self.assertEqual(len(info), 1)
- last_seen_1 = info[0].last_seen
- # Insert a second ip, agent at a later date. We should be able to retrieve it.
- last_seen_2 = last_seen_1 + 10000
- self.get_success(
- self.store.insert_client_ip(
- user_id, "access_token", "ip_2", "user_agent_2", "device_2", last_seen_2
- )
- )
- info = self.get_success(self.module_api.get_user_ip_and_agents(user_id))
- self.assertEqual(len(info), 2)
- ip_1_seen = False
- ip_2_seen = False
- for i in info:
- if i.ip == "ip_1":
- ip_1_seen = True
- self.assertEqual(i.user_agent, "user_agent_1")
- self.assertEqual(i.last_seen, last_seen_1)
- elif i.ip == "ip_2":
- ip_2_seen = True
- self.assertEqual(i.user_agent, "user_agent_2")
- self.assertEqual(i.last_seen, last_seen_2)
- self.assertTrue(ip_1_seen)
- self.assertTrue(ip_2_seen)
- # If we fetch from a midpoint between last_seen_1 and last_seen_2,
- # we should only find the second ip, agent.
- info = self.get_success(
- self.module_api.get_user_ip_and_agents(
- user_id, (last_seen_1 + last_seen_2) / 2
- )
- )
- self.assertEqual(len(info), 1)
- self.assertEqual(info[0].ip, "ip_2")
- self.assertEqual(info[0].user_agent, "user_agent_2")
- self.assertEqual(info[0].last_seen, last_seen_2)
- # If we fetch from a point later than last_seen_2, we shouldn't
- # find anything.
- info = self.get_success(
- self.module_api.get_user_ip_and_agents(user_id, last_seen_2 + 10000)
- )
- self.assertEqual(info, [])
- def test_get_user_ip_and_agents__no_user_found(self):
- info = self.get_success(
- self.module_api.get_user_ip_and_agents(
- "@test_get_user_ip_and_agents_user_nonexistent:example.com"
- )
- )
- self.assertEqual(info, [])
- def test_sending_events_into_room(self):
- """Tests that a module can send events into a room"""
- # Mock out create_and_send_nonmember_event to check whether events are being sent
- self.event_creation_handler.create_and_send_nonmember_event = Mock(
- spec=[],
- side_effect=self.event_creation_handler.create_and_send_nonmember_event,
- )
- # Create a user and room to play with
- user_id = self.register_user("summer", "monkey")
- tok = self.login("summer", "monkey")
- room_id = self.helper.create_room_as(user_id, tok=tok)
- # Create and send a non-state event
- content = {"body": "I am a puppet", "msgtype": "m.text"}
- event_dict = {
- "room_id": room_id,
- "type": "m.room.message",
- "content": content,
- "sender": user_id,
- }
- event: EventBase = self.get_success(
- self.module_api.create_and_send_event_into_room(event_dict)
- )
- self.assertEqual(event.sender, user_id)
- self.assertEqual(event.type, "m.room.message")
- self.assertEqual(event.room_id, room_id)
- self.assertFalse(hasattr(event, "state_key"))
- self.assertDictEqual(event.content, content)
- expected_requester = create_requester(
- user_id, authenticated_entity=self.hs.hostname
- )
- # Check that the event was sent
- self.event_creation_handler.create_and_send_nonmember_event.assert_called_with(
- expected_requester,
- event_dict,
- ratelimit=False,
- ignore_shadow_ban=True,
- )
- # Create and send a state event
- content = {
- "events_default": 0,
- "users": {user_id: 100},
- "state_default": 50,
- "users_default": 0,
- "events": {"test.event.type": 25},
- }
- event_dict = {
- "room_id": room_id,
- "type": "m.room.power_levels",
- "content": content,
- "sender": user_id,
- "state_key": "",
- }
- event: EventBase = self.get_success(
- self.module_api.create_and_send_event_into_room(event_dict)
- )
- self.assertEqual(event.sender, user_id)
- self.assertEqual(event.type, "m.room.power_levels")
- self.assertEqual(event.room_id, room_id)
- self.assertEqual(event.state_key, "")
- self.assertDictEqual(event.content, content)
- # Check that the event was sent
- self.event_creation_handler.create_and_send_nonmember_event.assert_called_with(
- expected_requester,
- {
- "type": "m.room.power_levels",
- "content": content,
- "room_id": room_id,
- "sender": user_id,
- "state_key": "",
- },
- ratelimit=False,
- ignore_shadow_ban=True,
- )
- # Check that we can't send membership events
- content = {
- "membership": "leave",
- }
- event_dict = {
- "room_id": room_id,
- "type": "m.room.member",
- "content": content,
- "sender": user_id,
- "state_key": user_id,
- }
- self.get_failure(
- self.module_api.create_and_send_event_into_room(event_dict), Exception
- )
- def test_public_rooms(self):
- """Tests that a room can be added and removed from the public rooms list,
- as well as have its public rooms directory state queried.
- """
- # Create a user and room to play with
- user_id = self.register_user("kermit", "monkey")
- tok = self.login("kermit", "monkey")
- room_id = self.helper.create_room_as(user_id, tok=tok)
- # The room should not currently be in the public rooms directory
- is_in_public_rooms = self.get_success(
- self.module_api.public_room_list_manager.room_is_in_public_room_list(
- room_id
- )
- )
- self.assertFalse(is_in_public_rooms)
- # Let's try adding it to the public rooms directory
- self.get_success(
- self.module_api.public_room_list_manager.add_room_to_public_room_list(
- room_id
- )
- )
- # And checking whether it's in there...
- is_in_public_rooms = self.get_success(
- self.module_api.public_room_list_manager.room_is_in_public_room_list(
- room_id
- )
- )
- self.assertTrue(is_in_public_rooms)
- # Let's remove it again
- self.get_success(
- self.module_api.public_room_list_manager.remove_room_from_public_room_list(
- room_id
- )
- )
- # Should be gone
- is_in_public_rooms = self.get_success(
- self.module_api.public_room_list_manager.room_is_in_public_room_list(
- room_id
- )
- )
- self.assertFalse(is_in_public_rooms)
- def test_send_local_online_presence_to(self):
- # Test sending local online presence to users from the main process
- _test_sending_local_online_presence_to_local_user(self, test_with_workers=False)
- @override_config({"send_federation": True})
- def test_send_local_online_presence_to_federation(self):
- """Tests that send_local_presence_to_users sends local online presence to remote users."""
- # Create a user who will send presence updates
- self.presence_sender_id = self.register_user("presence_sender1", "monkey")
- self.presence_sender_tok = self.login("presence_sender1", "monkey")
- # And a room they're a part of
- room_id = self.helper.create_room_as(
- self.presence_sender_id,
- tok=self.presence_sender_tok,
- )
- # Mark them as online
- send_presence_update(
- self,
- self.presence_sender_id,
- self.presence_sender_tok,
- "online",
- "I'm online!",
- )
- # Make up a remote user to send presence to
- remote_user_id = "@far_away_person:island"
- # Create a join membership event for the remote user into the room.
- # This allows presence information to flow from one user to the other.
- self.get_success(
- inject_member_event(
- self.hs,
- room_id,
- sender=remote_user_id,
- target=remote_user_id,
- membership="join",
- )
- )
- # The remote user would have received the existing room members' presence
- # when they joined the room.
- #
- # Thus we reset the mock, and try sending online local user
- # presence again
- self.hs.get_federation_transport_client().send_transaction.reset_mock()
- # Broadcast local user online presence
- self.get_success(
- self.module_api.send_local_online_presence_to([remote_user_id])
- )
- # Check that a presence update was sent as part of a federation transaction
- found_update = False
- calls = (
- self.hs.get_federation_transport_client().send_transaction.call_args_list
- )
- for call in calls:
- call_args = call[0]
- federation_transaction: Transaction = call_args[0]
- # Get the sent EDUs in this transaction
- edus = federation_transaction.get_dict()["edus"]
- for edu in edus:
- # Make sure we're only checking presence-type EDUs
- if edu["edu_type"] != EduTypes.Presence:
- continue
- # EDUs can contain multiple presence updates
- for presence_update in edu["content"]["push"]:
- if presence_update["user_id"] == self.presence_sender_id:
- found_update = True
- self.assertTrue(found_update)
- def test_update_membership(self):
- """Tests that the module API can update the membership of a user in a room."""
- peter = self.register_user("peter", "hackme")
- lesley = self.register_user("lesley", "hackme")
- tok = self.login("peter", "hackme")
- lesley_tok = self.login("lesley", "hackme")
- # Make peter create a public room.
- room_id = self.helper.create_room_as(
- room_creator=peter, is_public=True, tok=tok
- )
- # Set a profile for lesley.
- channel = self.make_request(
- method="PUT",
- path="/_matrix/client/r0/profile/%s/displayname" % lesley,
- content={"displayname": "Lesley May"},
- access_token=lesley_tok,
- )
- self.assertEqual(channel.code, 200, channel.result)
- channel = self.make_request(
- method="PUT",
- path="/_matrix/client/r0/profile/%s/avatar_url" % lesley,
- content={"avatar_url": "some_url"},
- access_token=lesley_tok,
- )
- self.assertEqual(channel.code, 200, channel.result)
- # Make Peter invite Lesley to the room.
- self.get_success(
- defer.ensureDeferred(
- self.module_api.update_room_membership(peter, lesley, room_id, "invite")
- )
- )
- res = self.helper.get_state(
- room_id=room_id,
- event_type="m.room.member",
- state_key=lesley,
- tok=tok,
- )
- # Check the membership is correct.
- self.assertEqual(res["membership"], "invite")
- # Also check that the profile was correctly filled out, and that it's not
- # Peter's.
- self.assertEqual(res["displayname"], "Lesley May")
- self.assertEqual(res["avatar_url"], "some_url")
- # Make lesley join it.
- self.get_success(
- defer.ensureDeferred(
- self.module_api.update_room_membership(lesley, lesley, room_id, "join")
- )
- )
- # Check that the membership of lesley in the room is "join".
- res = self.helper.get_state(
- room_id=room_id,
- event_type="m.room.member",
- state_key=lesley,
- tok=tok,
- )
- self.assertEqual(res["membership"], "join")
- # Also check that the profile was correctly filled out.
- self.assertEqual(res["displayname"], "Lesley May")
- self.assertEqual(res["avatar_url"], "some_url")
- # Make peter kick lesley from the room.
- self.get_success(
- defer.ensureDeferred(
- self.module_api.update_room_membership(peter, lesley, room_id, "leave")
- )
- )
- # Check that the membership of lesley in the room is "leave".
- res = self.helper.get_state(
- room_id=room_id,
- event_type="m.room.member",
- state_key=lesley,
- tok=tok,
- )
- self.assertEqual(res["membership"], "leave")
- # Try to send a membership update from a non-local user and check that it fails.
- d = defer.ensureDeferred(
- self.module_api.update_room_membership(
- "@nicolas:otherserver.com",
- lesley,
- room_id,
- "invite",
- )
- )
- self.get_failure(d, RuntimeError)
- # Check that inviting a user that doesn't have a profile falls back to using a
- # default (localpart + no avatar) profile.
- simone = "@simone:" + self.hs.config.server.server_name
- self.get_success(
- defer.ensureDeferred(
- self.module_api.update_room_membership(peter, simone, room_id, "invite")
- )
- )
- res = self.helper.get_state(
- room_id=room_id,
- event_type="m.room.member",
- state_key=simone,
- tok=tok,
- )
- self.assertEqual(res["membership"], "invite")
- self.assertEqual(res["displayname"], "simone")
- self.assertIsNone(res["avatar_url"])
- def test_get_room_state(self):
- """Tests that a module can retrieve the state of a room through the module API."""
- user_id = self.register_user("peter", "hackme")
- tok = self.login("peter", "hackme")
- # Create a room and send some custom state in it.
- room_id = self.helper.create_room_as(tok=tok)
- self.helper.send_state(room_id, "org.matrix.test", {}, tok=tok)
- # Check that the module API can successfully fetch state for the room.
- state = self.get_success(
- defer.ensureDeferred(self.module_api.get_room_state(room_id))
- )
- # Check that a few standard events are in the returned state.
- self.assertIn((EventTypes.Create, ""), state)
- self.assertIn((EventTypes.Member, user_id), state)
- # Check that our custom state event is in the returned state.
- self.assertEqual(state[("org.matrix.test", "")].sender, user_id)
- self.assertEqual(state[("org.matrix.test", "")].state_key, "")
- self.assertEqual(state[("org.matrix.test", "")].content, {})
- class ModuleApiWorkerTestCase(BaseMultiWorkerStreamTestCase):
- """For testing ModuleApi functionality in a multi-worker setup"""
- # Testing stream ID replication from the main to worker processes requires postgres
- # (due to needing `MultiWriterIdGenerator`).
- if not USE_POSTGRES_FOR_TESTS:
- skip = "Requires Postgres"
- servlets = [
- admin.register_servlets,
- login.register_servlets,
- room.register_servlets,
- presence.register_servlets,
- ]
- def default_config(self):
- conf = super().default_config()
- conf["redis"] = {"enabled": "true"}
- conf["stream_writers"] = {"presence": ["presence_writer"]}
- conf["instance_map"] = {
- "presence_writer": {"host": "testserv", "port": 1001},
- }
- return conf
- def prepare(self, reactor, clock, homeserver):
- self.module_api = homeserver.get_module_api()
- self.sync_handler = homeserver.get_sync_handler()
- def test_send_local_online_presence_to_workers(self):
- # Test sending local online presence to users from a worker process
- _test_sending_local_online_presence_to_local_user(self, test_with_workers=True)
- def _test_sending_local_online_presence_to_local_user(
- test_case: HomeserverTestCase, test_with_workers: bool = False
- ):
- """Tests that send_local_presence_to_users sends local online presence to local users.
- This simultaneously tests two different usecases:
- * Testing that this method works when either called from a worker or the main process.
- - We test this by calling this method from both a TestCase that runs in monolith mode, and one that
- runs with a main and generic_worker.
- * Testing that multiple devices syncing simultaneously will all receive a snapshot of local,
- online presence - but only once per device.
- Args:
- test_with_workers: If True, this method will call ModuleApi.send_local_online_presence_to on a
- worker process. The test users will still sync with the main process. The purpose of testing
- with a worker is to check whether a Synapse module running on a worker can inform other workers/
- the main process that they should include additional presence when a user next syncs.
- """
- if test_with_workers:
- # Create a worker process to make module_api calls against
- worker_hs = test_case.make_worker_hs(
- "synapse.app.generic_worker", {"worker_name": "presence_writer"}
- )
- # Create a user who will send presence updates
- test_case.presence_receiver_id = test_case.register_user(
- "presence_receiver1", "monkey"
- )
- test_case.presence_receiver_tok = test_case.login("presence_receiver1", "monkey")
- # And another user that will send presence updates out
- test_case.presence_sender_id = test_case.register_user("presence_sender2", "monkey")
- test_case.presence_sender_tok = test_case.login("presence_sender2", "monkey")
- # Put them in a room together so they will receive each other's presence updates
- room_id = test_case.helper.create_room_as(
- test_case.presence_receiver_id,
- tok=test_case.presence_receiver_tok,
- )
- test_case.helper.join(
- room_id, test_case.presence_sender_id, tok=test_case.presence_sender_tok
- )
- # Presence sender comes online
- send_presence_update(
- test_case,
- test_case.presence_sender_id,
- test_case.presence_sender_tok,
- "online",
- "I'm online!",
- )
- # Presence receiver should have received it
- presence_updates, sync_token = sync_presence(
- test_case, test_case.presence_receiver_id
- )
- test_case.assertEqual(len(presence_updates), 1)
- presence_update: UserPresenceState = presence_updates[0]
- test_case.assertEqual(presence_update.user_id, test_case.presence_sender_id)
- test_case.assertEqual(presence_update.state, "online")
- if test_with_workers:
- # Replicate the current sync presence token from the main process to the worker process.
- # We need to do this so that the worker process knows the current presence stream ID to
- # insert into the database when we call ModuleApi.send_local_online_presence_to.
- test_case.replicate()
- # Syncing again should result in no presence updates
- presence_updates, sync_token = sync_presence(
- test_case, test_case.presence_receiver_id, sync_token
- )
- test_case.assertEqual(len(presence_updates), 0)
- # We do an (initial) sync with a second "device" now, getting a new sync token.
- # We'll use this in a moment.
- _, sync_token_second_device = sync_presence(
- test_case, test_case.presence_receiver_id
- )
- # Determine on which process (main or worker) to call ModuleApi.send_local_online_presence_to on
- if test_with_workers:
- module_api_to_use = worker_hs.get_module_api()
- else:
- module_api_to_use = test_case.module_api
- # Trigger sending local online presence. We expect this information
- # to be saved to the database where all processes can access it.
- # Note that we're syncing via the master.
- d = module_api_to_use.send_local_online_presence_to(
- [
- test_case.presence_receiver_id,
- ]
- )
- d = defer.ensureDeferred(d)
- if test_with_workers:
- # In order for the required presence_set_state replication request to occur between the
- # worker and main process, we need to pump the reactor. Otherwise, the coordinator that
- # reads the request on the main process won't do so, and the request will time out.
- while not d.called:
- test_case.reactor.advance(0.1)
- test_case.get_success(d)
- # The presence receiver should have received online presence again.
- presence_updates, sync_token = sync_presence(
- test_case, test_case.presence_receiver_id, sync_token
- )
- test_case.assertEqual(len(presence_updates), 1)
- presence_update: UserPresenceState = presence_updates[0]
- test_case.assertEqual(presence_update.user_id, test_case.presence_sender_id)
- test_case.assertEqual(presence_update.state, "online")
- # We attempt to sync with the second sync token we received above - just to check that
- # multiple syncing devices will each receive the necessary online presence.
- presence_updates, sync_token_second_device = sync_presence(
- test_case, test_case.presence_receiver_id, sync_token_second_device
- )
- test_case.assertEqual(len(presence_updates), 1)
- presence_update: UserPresenceState = presence_updates[0]
- test_case.assertEqual(presence_update.user_id, test_case.presence_sender_id)
- test_case.assertEqual(presence_update.state, "online")
- # However, if we now sync with either "device", we won't receive another burst of online presence
- # until the API is called again sometime in the future
- presence_updates, sync_token = sync_presence(
- test_case, test_case.presence_receiver_id, sync_token
- )
- # Now we check that we don't receive *offline* updates using ModuleApi.send_local_online_presence_to.
- # Presence sender goes offline
- send_presence_update(
- test_case,
- test_case.presence_sender_id,
- test_case.presence_sender_tok,
- "offline",
- "I slink back into the darkness.",
- )
- # Presence receiver should have received the updated, offline state
- presence_updates, sync_token = sync_presence(
- test_case, test_case.presence_receiver_id, sync_token
- )
- test_case.assertEqual(len(presence_updates), 1)
- # Now trigger sending local online presence.
- d = module_api_to_use.send_local_online_presence_to(
- [
- test_case.presence_receiver_id,
- ]
- )
- d = defer.ensureDeferred(d)
- if test_with_workers:
- # In order for the required presence_set_state replication request to occur between the
- # worker and main process, we need to pump the reactor. Otherwise, the coordinator that
- # reads the request on the main process won't do so, and the request will time out.
- while not d.called:
- test_case.reactor.advance(0.1)
- test_case.get_success(d)
- # Presence receiver should *not* have received offline state
- presence_updates, sync_token = sync_presence(
- test_case, test_case.presence_receiver_id, sync_token
- )
- test_case.assertEqual(len(presence_updates), 0)
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