# # This file is licensed under the Affero General Public License (AGPL) version 3. # # Copyright 2020 The Matrix.org Foundation C.I.C. # 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: # . # # Originally licensed under the Apache License, Version 2.0: # . # # [This file includes modifications made by New Vector Limited] # # import logging from typing import Tuple from twisted.test.proto_helpers import MemoryReactor from synapse.api.constants import EventTypes from synapse.api.errors import SynapseError from synapse.events import EventBase from synapse.events.snapshot import EventContext, UnpersistedEventContextBase from synapse.rest import admin from synapse.rest.client import login, room from synapse.server import HomeServer from synapse.types import create_requester from synapse.util import Clock from synapse.util.stringutils import random_string from tests import unittest from tests.test_utils.event_injection import create_event logger = logging.getLogger(__name__) class EventCreationTestCase(unittest.HomeserverTestCase): servlets = [ admin.register_servlets, login.register_servlets, room.register_servlets, ] def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None: self.handler = self.hs.get_event_creation_handler() persistence = self.hs.get_storage_controllers().persistence assert persistence is not None self._persist_event_storage_controller = persistence self.store = self.hs.get_datastores().main self.user_id = self.register_user("tester", "foobar") device_id = "dev-1" access_token = self.login("tester", "foobar", device_id=device_id) self.room_id = self.helper.create_room_as(self.user_id, tok=access_token) self.private_room_id = self.helper.create_room_as( self.user_id, tok=access_token, extra_content={"preset": "private_chat"} ) self.requester = create_requester(self.user_id, device_id=device_id) def _create_and_persist_member_event(self) -> Tuple[EventBase, EventContext]: # Create a member event we can use as an auth_event memberEvent, memberEventContext = self.get_success( create_event( self.hs, room_id=self.room_id, type="m.room.member", sender=self.requester.user.to_string(), state_key=self.requester.user.to_string(), content={"membership": "join"}, ) ) self.get_success( self._persist_event_storage_controller.persist_event( memberEvent, memberEventContext ) ) return memberEvent, memberEventContext def _create_duplicate_event( self, txn_id: str ) -> Tuple[EventBase, UnpersistedEventContextBase]: """Create a new event with the given transaction ID. All events produced by this method will be considered duplicates. """ # We create a new event with a random body, as otherwise we'll produce # *exactly* the same event with the same hash, and so same event ID. return self.get_success( self.handler.create_event( self.requester, { "type": EventTypes.Message, "room_id": self.room_id, "sender": self.requester.user.to_string(), "content": {"msgtype": "m.text", "body": random_string(5)}, }, txn_id=txn_id, ) ) def test_duplicated_txn_id(self) -> None: """Test that attempting to handle/persist an event with a transaction ID that has already been persisted correctly returns the old event and does *not* produce duplicate messages. """ txn_id = "something_suitably_random" event1, unpersisted_context = self._create_duplicate_event(txn_id) context = self.get_success(unpersisted_context.persist(event1)) ret_event1 = self.get_success( self.handler.handle_new_client_event( self.requester, events_and_context=[(event1, context)], ) ) stream_id1 = ret_event1.internal_metadata.stream_ordering self.assertEqual(event1.event_id, ret_event1.event_id) event2, unpersisted_context = self._create_duplicate_event(txn_id) context = self.get_success(unpersisted_context.persist(event2)) # We want to test that the deduplication at the persit event end works, # so we want to make sure we test with different events. self.assertNotEqual(event1.event_id, event2.event_id) ret_event2 = self.get_success( self.handler.handle_new_client_event( self.requester, events_and_context=[(event2, context)], ) ) stream_id2 = ret_event2.internal_metadata.stream_ordering # Assert that the returned values match those from the initial event # rather than the new one. self.assertEqual(ret_event1.event_id, ret_event2.event_id) self.assertEqual(stream_id1, stream_id2) # Let's test that calling `persist_event` directly also does the right # thing. event3, unpersisted_context = self._create_duplicate_event(txn_id) context = self.get_success(unpersisted_context.persist(event3)) self.assertNotEqual(event1.event_id, event3.event_id) ret_event3, event_pos3, _ = self.get_success( self._persist_event_storage_controller.persist_event(event3, context) ) # Assert that the returned values match those from the initial event # rather than the new one. self.assertEqual(ret_event1.event_id, ret_event3.event_id) self.assertEqual(stream_id1, event_pos3.stream) # Let's test that calling `persist_events` directly also does the right # thing. event4, unpersisted_context = self._create_duplicate_event(txn_id) context = self.get_success(unpersisted_context.persist(event4)) self.assertNotEqual(event1.event_id, event3.event_id) events, _ = self.get_success( self._persist_event_storage_controller.persist_events([(event3, context)]) ) ret_event4 = events[0] # Assert that the returned values match those from the initial event # rather than the new one. self.assertEqual(ret_event1.event_id, ret_event4.event_id) def test_duplicated_txn_id_one_call(self) -> None: """Test that we correctly handle duplicates that we try and persist at the same time. """ txn_id = "something_else_suitably_random" # Create two duplicate events to persist at the same time event1, unpersisted_context1 = self._create_duplicate_event(txn_id) context1 = self.get_success(unpersisted_context1.persist(event1)) event2, unpersisted_context2 = self._create_duplicate_event(txn_id) context2 = self.get_success(unpersisted_context2.persist(event2)) # Ensure their event IDs are different to start with self.assertNotEqual(event1.event_id, event2.event_id) events, _ = self.get_success( self._persist_event_storage_controller.persist_events( [(event1, context1), (event2, context2)] ) ) # Check that we've deduplicated the events. self.assertEqual(len(events), 2) self.assertEqual(events[0].event_id, events[1].event_id) def test_when_empty_prev_events_allowed_create_event_with_empty_prev_events( self, ) -> None: """When we set allow_no_prev_events=True, should be able to create a event without any prev_events (only auth_events). """ # Create a member event we can use as an auth_event memberEvent, _ = self._create_and_persist_member_event() # Try to create the event with empty prev_events bit with some auth_events event, _ = self.get_success( self.handler.create_event( self.requester, { "type": EventTypes.Message, "room_id": self.room_id, "sender": self.requester.user.to_string(), "content": {"msgtype": "m.text", "body": random_string(5)}, }, # Empty prev_events is the key thing we're testing here prev_event_ids=[], # But with some auth_events auth_event_ids=[memberEvent.event_id], # Allow no prev_events! allow_no_prev_events=True, ) ) self.assertIsNotNone(event) def test_when_empty_prev_events_not_allowed_reject_event_with_empty_prev_events( self, ) -> None: """When we set allow_no_prev_events=False, shouldn't be able to create a event without any prev_events even if it has auth_events. Expect an exception to be raised. """ # Create a member event we can use as an auth_event memberEvent, _ = self._create_and_persist_member_event() # Try to create the event with empty prev_events but with some auth_events self.get_failure( self.handler.create_event( self.requester, { "type": EventTypes.Message, "room_id": self.room_id, "sender": self.requester.user.to_string(), "content": {"msgtype": "m.text", "body": random_string(5)}, }, # Empty prev_events is the key thing we're testing here prev_event_ids=[], # But with some auth_events auth_event_ids=[memberEvent.event_id], # We expect the test to fail because empty prev_events are not # allowed here! allow_no_prev_events=False, ), AssertionError, ) def test_when_empty_prev_events_allowed_reject_event_with_empty_prev_events_and_auth_events( self, ) -> None: """When we set allow_no_prev_events=True, should be able to create a event without any prev_events or auth_events. Expect an exception to be raised. """ # Try to create the event with empty prev_events and empty auth_events self.get_failure( self.handler.create_event( self.requester, { "type": EventTypes.Message, "room_id": self.room_id, "sender": self.requester.user.to_string(), "content": {"msgtype": "m.text", "body": random_string(5)}, }, prev_event_ids=[], # The event should be rejected when there are no auth_events auth_event_ids=[], # Allow no prev_events! allow_no_prev_events=True, ), AssertionError, ) def test_call_invite_event_creation_fails_in_public_room(self) -> None: # get prev_events for room prev_events = self.get_success( self.store.get_prev_events_for_room(self.room_id) ) # the invite in a public room should fail self.get_failure( self.handler.create_event( self.requester, { "type": EventTypes.CallInvite, "room_id": self.room_id, "sender": self.requester.user.to_string(), }, prev_event_ids=prev_events, auth_event_ids=prev_events, ), SynapseError, ) # but a call invite in a private room should succeed self.get_success( self.handler.create_event( self.requester, { "type": EventTypes.CallInvite, "room_id": self.private_room_id, "sender": self.requester.user.to_string(), }, prev_event_ids=prev_events, auth_event_ids=prev_events, ) ) class ServerAclValidationTestCase(unittest.HomeserverTestCase): servlets = [ admin.register_servlets, login.register_servlets, room.register_servlets, ] def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None: self.user_id = self.register_user("tester", "foobar") self.access_token = self.login("tester", "foobar") self.room_id = self.helper.create_room_as(self.user_id, tok=self.access_token) def test_allow_server_acl(self) -> None: """Test that sending an ACL that blocks everyone but ourselves works.""" self.helper.send_state( self.room_id, EventTypes.ServerACL, body={"allow": [self.hs.hostname]}, tok=self.access_token, expect_code=200, ) def test_deny_server_acl_block_outselves(self) -> None: """Test that sending an ACL that blocks ourselves does not work.""" self.helper.send_state( self.room_id, EventTypes.ServerACL, body={}, tok=self.access_token, expect_code=400, ) def test_deny_redact_server_acl(self) -> None: """Test that attempting to redact an ACL is blocked.""" body = self.helper.send_state( self.room_id, EventTypes.ServerACL, body={"allow": [self.hs.hostname]}, tok=self.access_token, expect_code=200, ) event_id = body["event_id"] # Redaction of event should fail. path = "/_matrix/client/r0/rooms/%s/redact/%s" % (self.room_id, event_id) channel = self.make_request( "POST", path, content={}, access_token=self.access_token ) self.assertEqual(channel.code, 403)