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anonymousland-synapse/tests/handlers/test_appservice.py
Richard van der Hoff cb59e08062
Improve logging and opentracing for to-device message handling (#14598) 
A batch of changes intended to make it easier to trace to-device messages through the system.

The intention here is that a client can set a property org.matrix.msgid in any to-device message it sends. That ID is then included in any tracing or logging related to the message. (Suggestions as to where this field should be documented welcome. I'm not enthusiastic about speccing it - it's very much an optional extra to help with debugging.)

I've also generally improved the data we send to opentracing for these messages.
2022-12-06 09:52:55 +00:00

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# Copyright 2015-2021 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 typing import Dict, Iterable, List, Optional
from unittest.mock import Mock
from parameterized import parameterized
from twisted.internet import defer
from twisted.test.proto_helpers import MemoryReactor
import synapse.rest.admin
import synapse.storage
from synapse.api.constants import EduTypes, EventTypes
from synapse.appservice import (
ApplicationService,
TransactionOneTimeKeysCount,
TransactionUnusedFallbackKeys,
)
from synapse.handlers.appservice import ApplicationServicesHandler
from synapse.rest.client import login, receipts, register, room, sendtodevice
from synapse.server import HomeServer
from synapse.types import RoomStreamToken
from synapse.util import Clock
from synapse.util.stringutils import random_string
from tests import unittest
from tests.test_utils import event_injection, make_awaitable, simple_async_mock
from tests.unittest import override_config
from tests.utils import MockClock
class AppServiceHandlerTestCase(unittest.TestCase):
"""Tests the ApplicationServicesHandler."""
def setUp(self):
self.mock_store = Mock()
self.mock_as_api = Mock()
self.mock_scheduler = Mock()
hs = Mock()
hs.get_datastores.return_value = Mock(main=self.mock_store)
self.mock_store.get_appservice_last_pos.return_value = make_awaitable(None)
self.mock_store.set_appservice_last_pos.return_value = make_awaitable(None)
self.mock_store.set_appservice_stream_type_pos.return_value = make_awaitable(
None
)
hs.get_application_service_api.return_value = self.mock_as_api
hs.get_application_service_scheduler.return_value = self.mock_scheduler
hs.get_clock.return_value = MockClock()
self.handler = ApplicationServicesHandler(hs)
self.event_source = hs.get_event_sources()
def test_notify_interested_services(self):
interested_service = self._mkservice(is_interested_in_event=True)
services = [
self._mkservice(is_interested_in_event=False),
interested_service,
self._mkservice(is_interested_in_event=False),
]
self.mock_as_api.query_user.return_value = make_awaitable(True)
self.mock_store.get_app_services.return_value = services
self.mock_store.get_user_by_id.return_value = make_awaitable([])
event = Mock(
sender="@someone:anywhere", type="m.room.message", room_id="!foo:bar"
)
self.mock_store.get_all_new_event_ids_stream.side_effect = [
make_awaitable((0, {})),
make_awaitable((1, {event.event_id: 0})),
]
self.mock_store.get_events_as_list.side_effect = [
make_awaitable([]),
make_awaitable([event]),
]
self.handler.notify_interested_services(RoomStreamToken(None, 1))
self.mock_scheduler.enqueue_for_appservice.assert_called_once_with(
interested_service, events=[event]
)
def test_query_user_exists_unknown_user(self):
user_id = "@someone:anywhere"
services = [self._mkservice(is_interested_in_event=True)]
services[0].is_interested_in_user.return_value = True
self.mock_store.get_app_services.return_value = services
self.mock_store.get_user_by_id.return_value = make_awaitable(None)
event = Mock(sender=user_id, type="m.room.message", room_id="!foo:bar")
self.mock_as_api.query_user.return_value = make_awaitable(True)
self.mock_store.get_all_new_event_ids_stream.side_effect = [
make_awaitable((0, {event.event_id: 0})),
]
self.mock_store.get_events_as_list.side_effect = [make_awaitable([event])]
self.handler.notify_interested_services(RoomStreamToken(None, 0))
self.mock_as_api.query_user.assert_called_once_with(services[0], user_id)
def test_query_user_exists_known_user(self):
user_id = "@someone:anywhere"
services = [self._mkservice(is_interested_in_event=True)]
services[0].is_interested_in_user.return_value = True
self.mock_store.get_app_services.return_value = services
self.mock_store.get_user_by_id.return_value = make_awaitable({"name": user_id})
event = Mock(sender=user_id, type="m.room.message", room_id="!foo:bar")
self.mock_as_api.query_user.return_value = make_awaitable(True)
self.mock_store.get_all_new_event_ids_stream.side_effect = [
make_awaitable((0, [event], {event.event_id: 0})),
]
self.handler.notify_interested_services(RoomStreamToken(None, 0))
self.assertFalse(
self.mock_as_api.query_user.called,
"query_user called when it shouldn't have been.",
)
def test_query_room_alias_exists(self):
room_alias_str = "#foo:bar"
room_alias = Mock()
room_alias.to_string.return_value = room_alias_str
room_id = "!alpha:bet"
servers = ["aperture"]
interested_service = self._mkservice_alias(is_room_alias_in_namespace=True)
services = [
self._mkservice_alias(is_room_alias_in_namespace=False),
interested_service,
self._mkservice_alias(is_room_alias_in_namespace=False),
]
self.mock_as_api.query_alias.return_value = make_awaitable(True)
self.mock_store.get_app_services.return_value = services
self.mock_store.get_association_from_room_alias.return_value = make_awaitable(
Mock(room_id=room_id, servers=servers)
)
result = self.successResultOf(
defer.ensureDeferred(self.handler.query_room_alias_exists(room_alias))
)
self.mock_as_api.query_alias.assert_called_once_with(
interested_service, room_alias_str
)
self.assertEqual(result.room_id, room_id)
self.assertEqual(result.servers, servers)
def test_get_3pe_protocols_no_appservices(self):
self.mock_store.get_app_services.return_value = []
response = self.successResultOf(
defer.ensureDeferred(self.handler.get_3pe_protocols("my-protocol"))
)
self.mock_as_api.get_3pe_protocol.assert_not_called()
self.assertEqual(response, {})
def test_get_3pe_protocols_no_protocols(self):
service = self._mkservice(False, [])
self.mock_store.get_app_services.return_value = [service]
response = self.successResultOf(
defer.ensureDeferred(self.handler.get_3pe_protocols())
)
self.mock_as_api.get_3pe_protocol.assert_not_called()
self.assertEqual(response, {})
def test_get_3pe_protocols_protocol_no_response(self):
service = self._mkservice(False, ["my-protocol"])
self.mock_store.get_app_services.return_value = [service]
self.mock_as_api.get_3pe_protocol.return_value = make_awaitable(None)
response = self.successResultOf(
defer.ensureDeferred(self.handler.get_3pe_protocols())
)
self.mock_as_api.get_3pe_protocol.assert_called_once_with(
service, "my-protocol"
)
self.assertEqual(response, {})
def test_get_3pe_protocols_select_one_protocol(self):
service = self._mkservice(False, ["my-protocol"])
self.mock_store.get_app_services.return_value = [service]
self.mock_as_api.get_3pe_protocol.return_value = make_awaitable(
{"x-protocol-data": 42, "instances": []}
)
response = self.successResultOf(
defer.ensureDeferred(self.handler.get_3pe_protocols("my-protocol"))
)
self.mock_as_api.get_3pe_protocol.assert_called_once_with(
service, "my-protocol"
)
self.assertEqual(
response, {"my-protocol": {"x-protocol-data": 42, "instances": []}}
)
def test_get_3pe_protocols_one_protocol(self):
service = self._mkservice(False, ["my-protocol"])
self.mock_store.get_app_services.return_value = [service]
self.mock_as_api.get_3pe_protocol.return_value = make_awaitable(
{"x-protocol-data": 42, "instances": []}
)
response = self.successResultOf(
defer.ensureDeferred(self.handler.get_3pe_protocols())
)
self.mock_as_api.get_3pe_protocol.assert_called_once_with(
service, "my-protocol"
)
self.assertEqual(
response, {"my-protocol": {"x-protocol-data": 42, "instances": []}}
)
def test_get_3pe_protocols_multiple_protocol(self):
service_one = self._mkservice(False, ["my-protocol"])
service_two = self._mkservice(False, ["other-protocol"])
self.mock_store.get_app_services.return_value = [service_one, service_two]
self.mock_as_api.get_3pe_protocol.return_value = make_awaitable(
{"x-protocol-data": 42, "instances": []}
)
response = self.successResultOf(
defer.ensureDeferred(self.handler.get_3pe_protocols())
)
self.mock_as_api.get_3pe_protocol.assert_called()
self.assertEqual(
response,
{
"my-protocol": {"x-protocol-data": 42, "instances": []},
"other-protocol": {"x-protocol-data": 42, "instances": []},
},
)
def test_get_3pe_protocols_multiple_info(self):
service_one = self._mkservice(False, ["my-protocol"])
service_two = self._mkservice(False, ["my-protocol"])
async def get_3pe_protocol(service, unusedProtocol):
if service == service_one:
return {
"x-protocol-data": 42,
"instances": [{"desc": "Alice's service"}],
}
if service == service_two:
return {
"x-protocol-data": 36,
"x-not-used": 45,
"instances": [{"desc": "Bob's service"}],
}
raise Exception("Unexpected service")
self.mock_store.get_app_services.return_value = [service_one, service_two]
self.mock_as_api.get_3pe_protocol = get_3pe_protocol
response = self.successResultOf(
defer.ensureDeferred(self.handler.get_3pe_protocols())
)
# It's expected that the second service's data doesn't appear in the response
self.assertEqual(
response,
{
"my-protocol": {
"x-protocol-data": 42,
"instances": [
{
"desc": "Alice's service",
},
{"desc": "Bob's service"},
],
},
},
)
def test_notify_interested_services_ephemeral(self):
"""
Test sending ephemeral events to the appservice handler are scheduled
to be pushed out to interested appservices, and that the stream ID is
updated accordingly.
"""
interested_service = self._mkservice(is_interested_in_event=True)
services = [interested_service]
self.mock_store.get_app_services.return_value = services
self.mock_store.get_type_stream_id_for_appservice.return_value = make_awaitable(
579
)
event = Mock(event_id="event_1")
self.event_source.sources.receipt.get_new_events_as.return_value = (
make_awaitable(([event], None))
)
self.handler.notify_interested_services_ephemeral(
"receipt_key", 580, ["@fakerecipient:example.com"]
)
self.mock_scheduler.enqueue_for_appservice.assert_called_once_with(
interested_service, ephemeral=[event]
)
self.mock_store.set_appservice_stream_type_pos.assert_called_once_with(
interested_service,
"read_receipt",
580,
)
def test_notify_interested_services_ephemeral_out_of_order(self):
"""
Test sending out of order ephemeral events to the appservice handler
are ignored.
"""
interested_service = self._mkservice(is_interested_in_event=True)
services = [interested_service]
self.mock_store.get_app_services.return_value = services
self.mock_store.get_type_stream_id_for_appservice.return_value = make_awaitable(
580
)
event = Mock(event_id="event_1")
self.event_source.sources.receipt.get_new_events_as.return_value = (
make_awaitable(([event], None))
)
self.handler.notify_interested_services_ephemeral(
"receipt_key", 580, ["@fakerecipient:example.com"]
)
# This method will be called, but with an empty list of events
self.mock_scheduler.enqueue_for_appservice.assert_called_once_with(
interested_service, ephemeral=[]
)
def _mkservice(
self, is_interested_in_event: bool, protocols: Optional[Iterable] = None
) -> Mock:
"""
Create a new mock representing an ApplicationService.
Args:
is_interested_in_event: Whether this application service will be considered
interested in all events.
protocols: The third-party protocols that this application service claims to
support.
Returns:
A mock representing the ApplicationService.
"""
service = Mock()
service.is_interested_in_event.return_value = make_awaitable(
is_interested_in_event
)
service.token = "mock_service_token"
service.url = "mock_service_url"
service.protocols = protocols
return service
def _mkservice_alias(self, is_room_alias_in_namespace: bool) -> Mock:
"""
Create a new mock representing an ApplicationService that is or is not interested
any given room aliase.
Args:
is_room_alias_in_namespace: If true, the application service will be interested
in all room aliases that are queried against it. If false, the application
service will not be interested in any room aliases.
Returns:
A mock representing the ApplicationService.
"""
service = Mock()
service.is_room_alias_in_namespace.return_value = is_room_alias_in_namespace
service.token = "mock_service_token"
service.url = "mock_service_url"
return service
class ApplicationServicesHandlerSendEventsTestCase(unittest.HomeserverTestCase):
"""
Tests that the ApplicationServicesHandler sends events to application
services correctly.
"""
servlets = [
synapse.rest.admin.register_servlets_for_client_rest_resource,
login.register_servlets,
room.register_servlets,
sendtodevice.register_servlets,
receipts.register_servlets,
]
def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer):
self.hs = hs
# Mock the ApplicationServiceScheduler's _TransactionController's send method so that
# we can track any outgoing ephemeral events
self.send_mock = simple_async_mock()
hs.get_application_service_handler().scheduler.txn_ctrl.send = self.send_mock # type: ignore[assignment]
# Mock out application services, and allow defining our own in tests
self._services: List[ApplicationService] = []
self.hs.get_datastores().main.get_app_services = Mock( # type: ignore[assignment]
return_value=self._services
)
# A user on the homeserver.
self.local_user_device_id = "local_device"
self.local_user = self.register_user("local_user", "password")
self.local_user_token = self.login(
"local_user", "password", self.local_user_device_id
)
# A user on the homeserver which lies within an appservice's exclusive user namespace.
self.exclusive_as_user_device_id = "exclusive_as_device"
self.exclusive_as_user = self.register_user("exclusive_as_user", "password")
self.exclusive_as_user_token = self.login(
"exclusive_as_user", "password", self.exclusive_as_user_device_id
)
def _notify_interested_services(self):
# This is normally set in `notify_interested_services` but we need to call the
# internal async version so the reactor gets pushed to completion.
self.hs.get_application_service_handler().current_max += 1
self.get_success(
self.hs.get_application_service_handler()._notify_interested_services(
RoomStreamToken(
None, self.hs.get_application_service_handler().current_max
)
)
)
@parameterized.expand(
[
("@local_as_user:test", True),
# Defining remote users in an application service user namespace regex is a
# footgun since the appservice might assume that it'll receive all events
# sent by that remote user, but it will only receive events in rooms that
# are shared with a local user. So we just remove this footgun possibility
# entirely and we won't notify the application service based on remote
# users.
("@remote_as_user:remote", False),
]
)
def test_match_interesting_room_members(
self, interesting_user: str, should_notify: bool
):
"""
Test to make sure that a interesting user (local or remote) in the room is
notified as expected when someone else in the room sends a message.
"""
# Register an application service that's interested in the `interesting_user`
interested_appservice = self._register_application_service(
namespaces={
ApplicationService.NS_USERS: [
{
"regex": interesting_user,
"exclusive": False,
},
],
},
)
# Create a room
alice = self.register_user("alice", "pass")
alice_access_token = self.login("alice", "pass")
room_id = self.helper.create_room_as(room_creator=alice, tok=alice_access_token)
# Join the interesting user to the room
self.get_success(
event_injection.inject_member_event(
self.hs, room_id, interesting_user, "join"
)
)
# Kick the appservice into checking this membership event to get the event out
# of the way
self._notify_interested_services()
# We don't care about the interesting user join event (this test is making sure
# the next thing works)
self.send_mock.reset_mock()
# Send a message from an uninteresting user
self.helper.send_event(
room_id,
type=EventTypes.Message,
content={
"msgtype": "m.text",
"body": "message from uninteresting user",
},
tok=alice_access_token,
)
# Kick the appservice into checking this new event
self._notify_interested_services()
if should_notify:
self.send_mock.assert_called_once()
(
service,
events,
_ephemeral,
_to_device_messages,
_otks,
_fbks,
_device_list_summary,
) = self.send_mock.call_args[0]
# Even though the message came from an uninteresting user, it should still
# notify us because the interesting user is joined to the room where the
# message was sent.
self.assertEqual(service, interested_appservice)
self.assertEqual(events[0]["type"], "m.room.message")
self.assertEqual(events[0]["sender"], alice)
else:
self.send_mock.assert_not_called()
def test_application_services_receive_events_sent_by_interesting_local_user(self):
"""
Test to make sure that a messages sent from a local user can be interesting and
picked up by the appservice.
"""
# Register an application service that's interested in all local users
interested_appservice = self._register_application_service(
namespaces={
ApplicationService.NS_USERS: [
{
"regex": ".*",
"exclusive": False,
},
],
},
)
# Create a room
alice = self.register_user("alice", "pass")
alice_access_token = self.login("alice", "pass")
room_id = self.helper.create_room_as(room_creator=alice, tok=alice_access_token)
# We don't care about interesting events before this (this test is making sure
# the next thing works)
self.send_mock.reset_mock()
# Send a message from the interesting local user
self.helper.send_event(
room_id,
type=EventTypes.Message,
content={
"msgtype": "m.text",
"body": "message from interesting local user",
},
tok=alice_access_token,
)
# Kick the appservice into checking this new event
self._notify_interested_services()
self.send_mock.assert_called_once()
(
service,
events,
_ephemeral,
_to_device_messages,
_otks,
_fbks,
_device_list_summary,
) = self.send_mock.call_args[0]
# Events sent from an interesting local user should also be picked up as
# interesting to the appservice.
self.assertEqual(service, interested_appservice)
self.assertEqual(events[0]["type"], "m.room.message")
self.assertEqual(events[0]["sender"], alice)
def test_sending_read_receipt_batches_to_application_services(self):
"""Tests that a large batch of read receipts are sent correctly to
interested application services.
"""
# Register an application service that's interested in a certain user
# and room prefix
interested_appservice = self._register_application_service(
namespaces={
ApplicationService.NS_USERS: [
{
"regex": "@exclusive_as_user:.+",
"exclusive": True,
}
],
ApplicationService.NS_ROOMS: [
{
"regex": "!fakeroom_.*",
"exclusive": True,
}
],
},
)
# Now, pretend that we receive a large burst of read receipts (300 total) that
# all come in at once.
for i in range(300):
self.get_success(
# Insert a fake read receipt into the database
self.hs.get_datastores().main.insert_receipt(
# We have to use unique room ID + user ID combinations here, as the db query
# is an upsert.
room_id=f"!fakeroom_{i}:test",
receipt_type="m.read",
user_id=self.local_user,
event_ids=[f"$eventid_{i}"],
thread_id=None,
data={},
)
)
# Now notify the appservice handler that 300 read receipts have all arrived
# at once. What will it do!
# note: stream tokens start at 2
for stream_token in range(2, 303):
self.get_success(
self.hs.get_application_service_handler()._notify_interested_services_ephemeral(
services=[interested_appservice],
stream_key="receipt_key",
new_token=stream_token,
users=[self.exclusive_as_user],
)
)
# Using our txn send mock, we can see what the AS received. After iterating over every
# transaction, we'd like to see all 300 read receipts accounted for.
# No more, no less.
all_ephemeral_events = []
for call in self.send_mock.call_args_list:
ephemeral_events = call[0][2]
all_ephemeral_events += ephemeral_events
# Ensure that no duplicate events were sent
self.assertEqual(len(all_ephemeral_events), 300)
# Check that the ephemeral event is a read receipt with the expected structure
latest_read_receipt = all_ephemeral_events[-1]
self.assertEqual(latest_read_receipt["type"], EduTypes.RECEIPT)
event_id = list(latest_read_receipt["content"].keys())[0]
self.assertEqual(
latest_read_receipt["content"][event_id]["m.read"], {self.local_user: {}}
)
@unittest.override_config(
{"experimental_features": {"msc2409_to_device_messages_enabled": True}}
)
def test_application_services_receive_local_to_device(self):
"""
Test that when a user sends a to-device message to another user
that is an application service's user namespace, the
application service will receive it.
"""
interested_appservice = self._register_application_service(
namespaces={
ApplicationService.NS_USERS: [
{
"regex": "@exclusive_as_user:.+",
"exclusive": True,
}
],
},
)
# Have local_user send a to-device message to exclusive_as_user
message_content = {"some_key": "some really interesting value"}
chan = self.make_request(
"PUT",
"/_matrix/client/r0/sendToDevice/m.room_key_request/3",
content={
"messages": {
self.exclusive_as_user: {
self.exclusive_as_user_device_id: message_content
}
}
},
access_token=self.local_user_token,
)
self.assertEqual(chan.code, 200, chan.result)
# Have exclusive_as_user send a to-device message to local_user
chan = self.make_request(
"PUT",
"/_matrix/client/r0/sendToDevice/m.room_key_request/4",
content={
"messages": {
self.local_user: {self.local_user_device_id: message_content}
}
},
access_token=self.exclusive_as_user_token,
)
self.assertEqual(chan.code, 200, chan.result)
# Check if our application service - that is interested in exclusive_as_user - received
# the to-device message as part of an AS transaction.
# Only the local_user -> exclusive_as_user to-device message should have been forwarded to the AS.
#
# The uninterested application service should not have been notified at all.
self.send_mock.assert_called_once()
(
service,
_events,
_ephemeral,
to_device_messages,
_otks,
_fbks,
_device_list_summary,
) = self.send_mock.call_args[0]
# Assert that this was the same to-device message that local_user sent
self.assertEqual(service, interested_appservice)
self.assertEqual(to_device_messages[0]["type"], "m.room_key_request")
self.assertEqual(to_device_messages[0]["sender"], self.local_user)
# Additional fields 'to_user_id' and 'to_device_id' specifically for
# to-device messages via the AS API
self.assertEqual(to_device_messages[0]["to_user_id"], self.exclusive_as_user)
self.assertEqual(
to_device_messages[0]["to_device_id"], self.exclusive_as_user_device_id
)
self.assertEqual(to_device_messages[0]["content"], message_content)
@unittest.override_config(
{"experimental_features": {"msc2409_to_device_messages_enabled": True}}
)
def test_application_services_receive_bursts_of_to_device(self):
"""
Test that when a user sends >100 to-device messages at once, any
interested AS's will receive them in separate transactions.
Also tests that uninterested application services do not receive messages.
"""
# Register two application services with exclusive interest in a user
interested_appservices = []
for _ in range(2):
appservice = self._register_application_service(
namespaces={
ApplicationService.NS_USERS: [
{
"regex": "@exclusive_as_user:.+",
"exclusive": True,
}
],
},
)
interested_appservices.append(appservice)
# ...and an application service which does not have any user interest.
self._register_application_service()
to_device_message_content = {
"some key": "some interesting value",
}
# We need to send a large burst of to-device messages. We also would like to
# include them all in the same application service transaction so that we can
# test large transactions.
#
# To do this, we can send a single to-device message to many user devices at
# once.
#
# We insert number_of_messages - 1 messages into the database directly. We'll then
# send a final to-device message to the real device, which will also kick off
# an AS transaction (as just inserting messages into the DB won't).
number_of_messages = 150
fake_device_ids = [f"device_{num}" for num in range(number_of_messages - 1)]
messages = {
self.exclusive_as_user: {
device_id: {
"type": "test_to_device_message",
"sender": "@some:sender",
"content": to_device_message_content,
}
for device_id in fake_device_ids
}
}
# Create a fake device per message. We can't send to-device messages to
# a device that doesn't exist.
self.get_success(
self.hs.get_datastores().main.db_pool.simple_insert_many(
desc="test_application_services_receive_burst_of_to_device",
table="devices",
keys=("user_id", "device_id"),
values=[
(
self.exclusive_as_user,
device_id,
)
for device_id in fake_device_ids
],
)
)
# Seed the device_inbox table with our fake messages
self.get_success(
self.hs.get_datastores().main.add_messages_to_device_inbox(messages, {})
)
# Now have local_user send a final to-device message to exclusive_as_user. All unsent
# to-device messages should be sent to any application services
# interested in exclusive_as_user.
chan = self.make_request(
"PUT",
"/_matrix/client/r0/sendToDevice/m.room_key_request/4",
content={
"messages": {
self.exclusive_as_user: {
self.exclusive_as_user_device_id: to_device_message_content
}
}
},
access_token=self.local_user_token,
)
self.assertEqual(chan.code, 200, chan.result)
self.send_mock.assert_called()
# Count the total number of to-device messages that were sent out per-service.
# Ensure that we only sent to-device messages to interested services, and that
# each interested service received the full count of to-device messages.
service_id_to_message_count: Dict[str, int] = {}
for call in self.send_mock.call_args_list:
(
service,
_events,
_ephemeral,
to_device_messages,
_otks,
_fbks,
_device_list_summary,
) = call[0]
# Check that this was made to an interested service
self.assertIn(service, interested_appservices)
# Add to the count of messages for this application service
service_id_to_message_count.setdefault(service.id, 0)
service_id_to_message_count[service.id] += len(to_device_messages)
# Assert that each interested service received the full count of messages
for count in service_id_to_message_count.values():
self.assertEqual(count, number_of_messages)
def _register_application_service(
self,
namespaces: Optional[Dict[str, Iterable[Dict]]] = None,
) -> ApplicationService:
"""
Register a new application service, with the given namespaces of interest.
Args:
namespaces: A dictionary containing any user, room or alias namespaces that
the application service is interested in.
Returns:
The registered application service.
"""
# Create an application service
appservice = ApplicationService(
token=random_string(10),
id=random_string(10),
sender="@as:example.com",
rate_limited=False,
namespaces=namespaces,
supports_ephemeral=True,
)
# Register the application service
self._services.append(appservice)
return appservice
class ApplicationServicesHandlerDeviceListsTestCase(unittest.HomeserverTestCase):
"""
Tests that the ApplicationServicesHandler sends device list updates to application
services correctly.
"""
servlets = [
synapse.rest.admin.register_servlets_for_client_rest_resource,
login.register_servlets,
room.register_servlets,
]
def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None:
# Allow us to modify cached feature flags mid-test
self.as_handler = hs.get_application_service_handler()
# Mock ApplicationServiceApi's put_json, so we can verify the raw JSON that
# will be sent over the wire
self.put_json = simple_async_mock()
hs.get_application_service_api().put_json = self.put_json # type: ignore[assignment]
# Mock out application services, and allow defining our own in tests
self._services: List[ApplicationService] = []
self.hs.get_datastores().main.get_app_services = Mock(
return_value=self._services
)
# Test across a variety of configuration values
@parameterized.expand(
[
(True, True, True),
(True, False, False),
(False, True, False),
(False, False, False),
]
)
def test_application_service_receives_device_list_updates(
self,
experimental_feature_enabled: bool,
as_supports_txn_extensions: bool,
as_should_receive_device_list_updates: bool,
):
"""
Tests that an application service receives notice of changed device
lists for a user, when a user changes their device lists.
Arguments above are populated by parameterized.
Args:
as_should_receive_device_list_updates: Whether we expect the AS to receive the
device list changes.
experimental_feature_enabled: Whether the "msc3202_transaction_extensions" experimental
feature is enabled. This feature must be enabled for device lists to ASs to work.
as_supports_txn_extensions: Whether the application service has explicitly registered
to receive information defined by MSC3202 - which includes device list changes.
"""
# Change whether the experimental feature is enabled or disabled before making
# device list changes
self.as_handler._msc3202_transaction_extensions_enabled = (
experimental_feature_enabled
)
# Create an appservice that is interested in "local_user"
appservice = ApplicationService(
token=random_string(10),
id=random_string(10),
sender="@as:example.com",
rate_limited=False,
namespaces={
ApplicationService.NS_USERS: [
{
"regex": "@local_user:.+",
"exclusive": False,
}
],
},
supports_ephemeral=True,
msc3202_transaction_extensions=as_supports_txn_extensions,
# Must be set for Synapse to try pushing data to the AS
hs_token="abcde",
url="some_url",
)
# Register the application service
self._services.append(appservice)
# Register a user on the homeserver
self.local_user = self.register_user("local_user", "password")
self.local_user_token = self.login("local_user", "password")
if as_should_receive_device_list_updates:
# Ensure that the resulting JSON uses the unstable prefix and contains the
# expected users
self.put_json.assert_called_once()
json_body = self.put_json.call_args[1]["json_body"]
# Our application service should have received a device list update with
# "local_user" in the "changed" list
device_list_dict = json_body.get("org.matrix.msc3202.device_lists", {})
self.assertEqual([], device_list_dict["left"])
self.assertEqual([self.local_user], device_list_dict["changed"])
else:
# No device list changes should have been sent out
self.put_json.assert_not_called()
class ApplicationServicesHandlerOtkCountsTestCase(unittest.HomeserverTestCase):
# Argument indices for pulling out arguments from a `send_mock`.
ARG_OTK_COUNTS = 4
ARG_FALLBACK_KEYS = 5
servlets = [
synapse.rest.admin.register_servlets_for_client_rest_resource,
login.register_servlets,
register.register_servlets,
room.register_servlets,
sendtodevice.register_servlets,
receipts.register_servlets,
]
def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None:
# Mock the ApplicationServiceScheduler's _TransactionController's send method so that
# we can track what's going out
self.send_mock = simple_async_mock()
hs.get_application_service_handler().scheduler.txn_ctrl.send = self.send_mock # type: ignore[assignment] # We assign to a method.
# Define an application service for the tests
self._service_token = "VERYSECRET"
self._service = ApplicationService(
self._service_token,
"as1",
"@as.sender:test",
namespaces={
"users": [
{"regex": "@_as_.*:test", "exclusive": True},
{"regex": "@as.sender:test", "exclusive": True},
]
},
msc3202_transaction_extensions=True,
)
self.hs.get_datastores().main.services_cache = [self._service]
# Register some appservice users
self._sender_user, self._sender_device = self.register_appservice_user(
"as.sender", self._service_token
)
self._namespaced_user, self._namespaced_device = self.register_appservice_user(
"_as_user1", self._service_token
)
# Register a real user as well.
self._real_user = self.register_user("real.user", "meow")
self._real_user_token = self.login("real.user", "meow")
async def _add_otks_for_device(
self, user_id: str, device_id: str, otk_count: int
) -> None:
"""
Add some dummy keys. It doesn't matter if they're not a real algorithm;
that should be opaque to the server anyway.
"""
await self.hs.get_datastores().main.add_e2e_one_time_keys(
user_id,
device_id,
self.clock.time_msec(),
[("algo", f"k{i}", "{}") for i in range(otk_count)],
)
async def _add_fallback_key_for_device(
self, user_id: str, device_id: str, used: bool
) -> None:
"""
Adds a fake fallback key to a device, optionally marking it as used
right away.
"""
store = self.hs.get_datastores().main
await store.set_e2e_fallback_keys(user_id, device_id, {"algo:fk": "fall back!"})
if used is True:
# Mark the key as used
await store.db_pool.simple_update_one(
table="e2e_fallback_keys_json",
keyvalues={
"user_id": user_id,
"device_id": device_id,
"algorithm": "algo",
"key_id": "fk",
},
updatevalues={"used": True},
desc="_get_fallback_key_set_used",
)
def _set_up_devices_and_a_room(self) -> str:
"""
Helper to set up devices for all the users
and a room for the users to talk in.
"""
async def preparation():
await self._add_otks_for_device(self._sender_user, self._sender_device, 42)
await self._add_fallback_key_for_device(
self._sender_user, self._sender_device, used=True
)
await self._add_otks_for_device(
self._namespaced_user, self._namespaced_device, 36
)
await self._add_fallback_key_for_device(
self._namespaced_user, self._namespaced_device, used=False
)
# Register a device for the real user, too, so that we can later ensure
# that we don't leak information to the AS about the non-AS user.
await self.hs.get_datastores().main.store_device(
self._real_user, "REALDEV", "UltraMatrix 3000"
)
await self._add_otks_for_device(self._real_user, "REALDEV", 50)
self.get_success(preparation())
room_id = self.helper.create_room_as(
self._real_user, is_public=True, tok=self._real_user_token
)
self.helper.join(
room_id,
self._namespaced_user,
tok=self._service_token,
appservice_user_id=self._namespaced_user,
)
# Check it was called for sanity. (This was to send the join event to the AS.)
self.send_mock.assert_called()
self.send_mock.reset_mock()
return room_id
@override_config(
{"experimental_features": {"msc3202_transaction_extensions": True}}
)
def test_application_services_receive_otk_counts_and_fallback_key_usages_with_pdus(
self,
) -> None:
"""
Tests that:
- the AS receives one-time key counts and unused fallback keys for:
- the specified sender; and
- any user who is in receipt of the PDUs
"""
room_id = self._set_up_devices_and_a_room()
# Send a message into the AS's room
self.helper.send(room_id, "woof woof", tok=self._real_user_token)
# Capture what was sent as an AS transaction.
self.send_mock.assert_called()
last_args, _last_kwargs = self.send_mock.call_args
otks: Optional[TransactionOneTimeKeysCount] = last_args[self.ARG_OTK_COUNTS]
unused_fallbacks: Optional[TransactionUnusedFallbackKeys] = last_args[
self.ARG_FALLBACK_KEYS
]
self.assertEqual(
otks,
{
"@as.sender:test": {self._sender_device: {"algo": 42}},
"@_as_user1:test": {self._namespaced_device: {"algo": 36}},
},
)
self.assertEqual(
unused_fallbacks,
{
"@as.sender:test": {self._sender_device: []},
"@_as_user1:test": {self._namespaced_device: ["algo"]},
},
)
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