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synapse/tests/module_api/test_api.py
Patrick Cloke c52abc1cfd
Additional constants for EDU types. (#12884)
Instead of hard-coding strings in many places.
2022-05-27 07:14:36 -04:00

842 lines
32 KiB
Python

# 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.handlers.push_rules import InvalidRuleException
from synapse.rest import admin
from synapse.rest.client import login, notifications, 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,
notifications.register_servlets,
]
def prepare(self, reactor, clock, homeserver):
self.store = homeserver.get_datastores().main
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_can_register_admin_user(self):
user_id = self.register_user(
"bob_module_admin", "1234", displayname="Bobberino Admin", admin=True
)
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, True)
def test_can_set_admin(self):
user_id = self.register_user(
"alice_wants_admin",
"1234",
displayname="Alice Powerhungry",
admin=False,
)
self.get_success(self.module_api.set_user_admin(user_id, True))
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, True)
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, is_public=False)
# 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, {})
def test_set_push_rules_action(self) -> None:
"""Test that a module can change the actions of an existing push rule for a user."""
# Create a room with 2 users in it. Push rules must not match if the user is the
# event's sender, so we need one user to send messages and one user to receive
# notifications.
user_id = self.register_user("user", "password")
tok = self.login("user", "password")
room_id = self.helper.create_room_as(user_id, is_public=True, tok=tok)
user_id2 = self.register_user("user2", "password")
tok2 = self.login("user2", "password")
self.helper.join(room_id, user_id2, tok=tok2)
# Register a 3rd user and join them to the room, so that we don't accidentally
# trigger 1:1 push rules.
user_id3 = self.register_user("user3", "password")
tok3 = self.login("user3", "password")
self.helper.join(room_id, user_id3, tok=tok3)
# Send a message as the second user and check that it notifies.
res = self.helper.send(room_id=room_id, body="here's a message", tok=tok2)
event_id = res["event_id"]
channel = self.make_request(
"GET",
"/notifications",
access_token=tok,
)
self.assertEqual(channel.code, 200, channel.result)
self.assertEqual(len(channel.json_body["notifications"]), 1, channel.json_body)
self.assertEqual(
channel.json_body["notifications"][0]["event"]["event_id"],
event_id,
channel.json_body,
)
# Change the .m.rule.message actions to not notify on new messages.
self.get_success(
defer.ensureDeferred(
self.module_api.set_push_rule_action(
user_id=user_id,
scope="global",
kind="underride",
rule_id=".m.rule.message",
actions=["dont_notify"],
)
)
)
# Send another message as the second user and check that the number of
# notifications didn't change.
self.helper.send(room_id=room_id, body="here's another message", tok=tok2)
channel = self.make_request(
"GET",
"/notifications?from=",
access_token=tok,
)
self.assertEqual(channel.code, 200, channel.result)
self.assertEqual(len(channel.json_body["notifications"]), 1, channel.json_body)
def test_check_push_rules_actions(self) -> None:
"""Test that modules can check whether a list of push rules actions are spec
compliant.
"""
with self.assertRaises(InvalidRuleException):
self.module_api.check_push_rule_actions(["foo"])
with self.assertRaises(InvalidRuleException):
self.module_api.check_push_rule_actions({"foo": "bar"})
self.module_api.check_push_rule_actions(["notify"])
self.module_api.check_push_rule_actions(
[{"set_tweak": "sound", "value": "default"}]
)
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)