# Copyright 2016-2021 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. """Contains functions for performing actions on rooms.""" import itertools import logging import math import random import string from collections import OrderedDict from http import HTTPStatus from typing import TYPE_CHECKING, Any, Awaitable, Dict, List, Optional, Tuple import attr from typing_extensions import TypedDict import synapse.events.snapshot from synapse.api.constants import ( Direction, EventContentFields, EventTypes, GuestAccess, HistoryVisibility, JoinRules, Membership, RoomCreationPreset, RoomEncryptionAlgorithms, RoomTypes, ) from synapse.api.errors import ( AuthError, Codes, LimitExceededError, NotFoundError, PartialStateConflictError, StoreError, SynapseError, ) from synapse.api.filtering import Filter from synapse.api.room_versions import KNOWN_ROOM_VERSIONS, RoomVersion from synapse.event_auth import validate_event_for_room_version from synapse.events import EventBase from synapse.events.snapshot import UnpersistedEventContext from synapse.events.utils import copy_and_fixup_power_levels_contents from synapse.handlers.relations import BundledAggregations from synapse.module_api import NOT_SPAM from synapse.rest.admin._base import assert_user_is_admin from synapse.streams import EventSource from synapse.types import ( JsonDict, MutableStateMap, Requester, RoomAlias, RoomID, RoomStreamToken, StateMap, StrCollection, StreamKeyType, StreamToken, UserID, create_requester, ) from synapse.types.state import StateFilter from synapse.util import stringutils from synapse.util.caches.response_cache import ResponseCache from synapse.util.stringutils import parse_and_validate_server_name from synapse.visibility import filter_events_for_client if TYPE_CHECKING: from synapse.server import HomeServer logger = logging.getLogger(__name__) id_server_scheme = "https://" FIVE_MINUTES_IN_MS = 5 * 60 * 1000 @attr.s(slots=True, frozen=True, auto_attribs=True) class EventContext: events_before: List[EventBase] event: EventBase events_after: List[EventBase] state: List[EventBase] aggregations: Dict[str, BundledAggregations] start: str end: str class RoomCreationHandler: def __init__(self, hs: "HomeServer"): self.store = hs.get_datastores().main self._storage_controllers = hs.get_storage_controllers() self.auth = hs.get_auth() self.auth_blocking = hs.get_auth_blocking() self.clock = hs.get_clock() self.hs = hs self.spam_checker = hs.get_spam_checker() self.event_creation_handler = hs.get_event_creation_handler() self.room_member_handler = hs.get_room_member_handler() self._event_auth_handler = hs.get_event_auth_handler() self.config = hs.config self.request_ratelimiter = hs.get_request_ratelimiter() # Room state based off defined presets self._presets_dict: Dict[str, Dict[str, Any]] = { RoomCreationPreset.PRIVATE_CHAT: { "join_rules": JoinRules.INVITE, "history_visibility": HistoryVisibility.SHARED, "original_invitees_have_ops": False, "guest_can_join": True, "power_level_content_override": {"invite": 0}, }, RoomCreationPreset.TRUSTED_PRIVATE_CHAT: { "join_rules": JoinRules.INVITE, "history_visibility": HistoryVisibility.SHARED, "original_invitees_have_ops": True, "guest_can_join": True, "power_level_content_override": {"invite": 0}, }, RoomCreationPreset.PUBLIC_CHAT: { "join_rules": JoinRules.PUBLIC, "history_visibility": HistoryVisibility.SHARED, "original_invitees_have_ops": False, "guest_can_join": False, "power_level_content_override": {}, }, } # Modify presets to selectively enable encryption by default per homeserver config for preset_name, preset_config in self._presets_dict.items(): encrypted = ( preset_name in self.config.room.encryption_enabled_by_default_for_room_presets ) preset_config["encrypted"] = encrypted self._default_power_level_content_override = ( self.config.room.default_power_level_content_override ) self._replication = hs.get_replication_data_handler() # If a user tries to update the same room multiple times in quick # succession, only process the first attempt and return its result to # subsequent requests self._upgrade_response_cache: ResponseCache[Tuple[str, str]] = ResponseCache( hs.get_clock(), "room_upgrade", timeout_ms=FIVE_MINUTES_IN_MS ) self._server_notices_mxid = hs.config.servernotices.server_notices_mxid self.third_party_event_rules = hs.get_third_party_event_rules() async def upgrade_room( self, requester: Requester, old_room_id: str, new_version: RoomVersion ) -> str: """Replace a room with a new room with a different version Args: requester: the user requesting the upgrade old_room_id: the id of the room to be replaced new_version: the new room version to use Returns: the new room id Raises: ShadowBanError if the requester is shadow-banned. """ await self.request_ratelimiter.ratelimit(requester) user_id = requester.user.to_string() # Check if this room is already being upgraded by another person for key in self._upgrade_response_cache.keys(): if key[0] == old_room_id and key[1] != user_id: # Two different people are trying to upgrade the same room. # Send the second an error. # # Note that this of course only gets caught if both users are # on the same homeserver. raise SynapseError( 400, "An upgrade for this room is currently in progress" ) # Check whether the room exists and 404 if it doesn't. # We could go straight for the auth check, but that will raise a 403 instead. old_room = await self.store.get_room(old_room_id) if old_room is None: raise NotFoundError("Unknown room id %s" % (old_room_id,)) new_room_id = self._generate_room_id() # Try several times, it could fail with PartialStateConflictError # in _upgrade_room, cf comment in except block. max_retries = 5 for i in range(max_retries): try: # Check whether the user has the power level to carry out the upgrade. # `check_auth_rules_from_context` will check that they are in the room and have # the required power level to send the tombstone event. ( tombstone_event, tombstone_unpersisted_context, _, ) = await self.event_creation_handler.create_event( requester, { "type": EventTypes.Tombstone, "state_key": "", "room_id": old_room_id, "sender": user_id, "content": { "body": "This room has been replaced", "replacement_room": new_room_id, }, }, ) tombstone_context = await tombstone_unpersisted_context.persist( tombstone_event ) validate_event_for_room_version(tombstone_event) await self._event_auth_handler.check_auth_rules_from_context( tombstone_event ) # Upgrade the room # # If this user has sent multiple upgrade requests for the same room # and one of them is not complete yet, cache the response and # return it to all subsequent requests ret = await self._upgrade_response_cache.wrap( (old_room_id, user_id), self._upgrade_room, requester, old_room_id, old_room, # args for _upgrade_room new_room_id, new_version, tombstone_event, tombstone_context, ) return ret except PartialStateConflictError as e: # Clean up the cache so we can retry properly self._upgrade_response_cache.unset((old_room_id, user_id)) # Persisting couldn't happen because the room got un-partial stated # in the meantime and context needs to be recomputed, so let's do so. if i == max_retries - 1: raise e pass # This is to satisfy mypy and should never happen raise PartialStateConflictError() async def _upgrade_room( self, requester: Requester, old_room_id: str, old_room: Dict[str, Any], new_room_id: str, new_version: RoomVersion, tombstone_event: EventBase, tombstone_context: synapse.events.snapshot.EventContext, ) -> str: """ Args: requester: the user requesting the upgrade old_room_id: the id of the room to be replaced old_room: a dict containing room information for the room to be replaced, as returned by `RoomWorkerStore.get_room`. new_room_id: the id of the replacement room new_version: the version to upgrade the room to tombstone_event: the tombstone event to send to the old room tombstone_context: the context for the tombstone event Raises: ShadowBanError if the requester is shadow-banned. """ user_id = requester.user.to_string() assert self.hs.is_mine_id(user_id), "User must be our own: %s" % (user_id,) logger.info("Creating new room %s to replace %s", new_room_id, old_room_id) # create the new room. may raise a `StoreError` in the exceedingly unlikely # event of a room ID collision. await self.store.store_room( room_id=new_room_id, room_creator_user_id=user_id, is_public=old_room["is_public"], room_version=new_version, ) await self.clone_existing_room( requester, old_room_id=old_room_id, new_room_id=new_room_id, new_room_version=new_version, tombstone_event_id=tombstone_event.event_id, ) # now send the tombstone await self.event_creation_handler.handle_new_client_event( requester=requester, events_and_context=[(tombstone_event, tombstone_context)], ) state_filter = StateFilter.from_types( [(EventTypes.CanonicalAlias, ""), (EventTypes.PowerLevels, "")] ) old_room_state = await tombstone_context.get_current_state_ids(state_filter) # We know the tombstone event isn't an outlier so it has current state. assert old_room_state is not None # update any aliases await self._move_aliases_to_new_room( requester, old_room_id, new_room_id, old_room_state ) # Copy over user push rules, tags and migrate room directory state await self.room_member_handler.transfer_room_state_on_room_upgrade( old_room_id, new_room_id ) # finally, shut down the PLs in the old room, and update them in the new # room. await self._update_upgraded_room_pls( requester, old_room_id, new_room_id, old_room_state, ) return new_room_id async def _update_upgraded_room_pls( self, requester: Requester, old_room_id: str, new_room_id: str, old_room_state: StateMap[str], ) -> None: """Send updated power levels in both rooms after an upgrade Args: requester: the user requesting the upgrade old_room_id: the id of the room to be replaced new_room_id: the id of the replacement room old_room_state: the state map for the old room Raises: ShadowBanError if the requester is shadow-banned. """ old_room_pl_event_id = old_room_state.get((EventTypes.PowerLevels, "")) if old_room_pl_event_id is None: logger.warning( "Not supported: upgrading a room with no PL event. Not setting PLs " "in old room." ) return old_room_pl_state = await self.store.get_event(old_room_pl_event_id) # we try to stop regular users from speaking by setting the PL required # to send regular events and invites to 'Moderator' level. That's normally # 50, but if the default PL in a room is 50 or more, then we set the # required PL above that. pl_content = copy_and_fixup_power_levels_contents(old_room_pl_state.content) users_default: int = pl_content.get("users_default", 0) # type: ignore[assignment] restricted_level = max(users_default + 1, 50) updated = False for v in ("invite", "events_default"): current: int = pl_content.get(v, 0) # type: ignore[assignment] if current < restricted_level: logger.debug( "Setting level for %s in %s to %i (was %i)", v, old_room_id, restricted_level, current, ) pl_content[v] = restricted_level updated = True else: logger.debug("Not setting level for %s (already %i)", v, current) if updated: try: await self.event_creation_handler.create_and_send_nonmember_event( requester, { "type": EventTypes.PowerLevels, "state_key": "", "room_id": old_room_id, "sender": requester.user.to_string(), "content": pl_content, }, ratelimit=False, ) except AuthError as e: logger.warning("Unable to update PLs in old room: %s", e) await self.event_creation_handler.create_and_send_nonmember_event( requester, { "type": EventTypes.PowerLevels, "state_key": "", "room_id": new_room_id, "sender": requester.user.to_string(), "content": copy_and_fixup_power_levels_contents( old_room_pl_state.content ), }, ratelimit=False, ) async def clone_existing_room( self, requester: Requester, old_room_id: str, new_room_id: str, new_room_version: RoomVersion, tombstone_event_id: str, ) -> None: """Populate a new room based on an old room Args: requester: the user requesting the upgrade old_room_id : the id of the room to be replaced new_room_id: the id to give the new room (should already have been created with _generate_room_id()) new_room_version: the new room version to use tombstone_event_id: the ID of the tombstone event in the old room. """ user_id = requester.user.to_string() spam_check = await self.spam_checker.user_may_create_room(user_id) if spam_check != NOT_SPAM: raise SynapseError( 403, "You are not permitted to create rooms", errcode=spam_check[0], additional_fields=spam_check[1], ) creation_content: JsonDict = { "room_version": new_room_version.identifier, "predecessor": {"room_id": old_room_id, "event_id": tombstone_event_id}, } # Check if old room was non-federatable # Get old room's create event old_room_create_event = await self.store.get_create_event_for_room(old_room_id) # Check if the create event specified a non-federatable room if not old_room_create_event.content.get(EventContentFields.FEDERATE, True): # If so, mark the new room as non-federatable as well creation_content[EventContentFields.FEDERATE] = False initial_state = {} # Replicate relevant room events types_to_copy: List[Tuple[str, Optional[str]]] = [ (EventTypes.JoinRules, ""), (EventTypes.Name, ""), (EventTypes.Topic, ""), (EventTypes.RoomHistoryVisibility, ""), (EventTypes.GuestAccess, ""), (EventTypes.RoomAvatar, ""), (EventTypes.RoomEncryption, ""), (EventTypes.ServerACL, ""), (EventTypes.PowerLevels, ""), ] # Copy the room type as per MSC3818. room_type = old_room_create_event.content.get(EventContentFields.ROOM_TYPE) if room_type is not None: creation_content[EventContentFields.ROOM_TYPE] = room_type # If the old room was a space, copy over the rooms in the space. if room_type == RoomTypes.SPACE: types_to_copy.append((EventTypes.SpaceChild, None)) old_room_state_ids = ( await self._storage_controllers.state.get_current_state_ids( old_room_id, StateFilter.from_types(types_to_copy) ) ) # map from event_id to BaseEvent old_room_state_events = await self.store.get_events(old_room_state_ids.values()) for k, old_event_id in old_room_state_ids.items(): old_event = old_room_state_events.get(old_event_id) if old_event: # If the event is an space child event with empty content, it was # removed from the space and should be ignored. if k[0] == EventTypes.SpaceChild and not old_event.content: continue initial_state[k] = old_event.content # deep-copy the power-levels event before we start modifying it # note that if frozen_dicts are enabled, `power_levels` will be a frozen # dict so we can't just copy.deepcopy it. initial_state[ (EventTypes.PowerLevels, "") ] = power_levels = copy_and_fixup_power_levels_contents( initial_state[(EventTypes.PowerLevels, "")] ) # Resolve the minimum power level required to send any state event # We will give the upgrading user this power level temporarily (if necessary) such that # they are able to copy all of the state events over, then revert them back to their # original power level afterwards in _update_upgraded_room_pls # Copy over user power levels now as this will not be possible with >100PL users once # the room has been created # Calculate the minimum power level needed to clone the room event_power_levels = power_levels.get("events", {}) if not isinstance(event_power_levels, dict): event_power_levels = {} state_default = power_levels.get("state_default", 50) try: state_default_int = int(state_default) # type: ignore[arg-type] except (TypeError, ValueError): state_default_int = 50 ban = power_levels.get("ban", 50) try: ban = int(ban) # type: ignore[arg-type] except (TypeError, ValueError): ban = 50 needed_power_level = max( state_default_int, ban, max(event_power_levels.values()) ) # Get the user's current power level, this matches the logic in get_user_power_level, # but without the entire state map. user_power_levels = power_levels.setdefault("users", {}) if not isinstance(user_power_levels, dict): user_power_levels = {} users_default = power_levels.get("users_default", 0) current_power_level = user_power_levels.get(user_id, users_default) try: current_power_level_int = int(current_power_level) # type: ignore[arg-type] except (TypeError, ValueError): current_power_level_int = 0 # Raise the requester's power level in the new room if necessary if current_power_level_int < needed_power_level: user_power_levels[user_id] = needed_power_level await self._send_events_for_new_room( requester, new_room_id, # we expect to override all the presets with initial_state, so this is # somewhat arbitrary. room_config={"preset": RoomCreationPreset.PRIVATE_CHAT}, invite_list=[], initial_state=initial_state, creation_content=creation_content, ) # Transfer membership events old_room_member_state_ids = ( await self._storage_controllers.state.get_current_state_ids( old_room_id, StateFilter.from_types([(EventTypes.Member, None)]) ) ) # map from event_id to BaseEvent old_room_member_state_events = await self.store.get_events( old_room_member_state_ids.values() ) for old_event in old_room_member_state_events.values(): # Only transfer ban events if ( "membership" in old_event.content and old_event.content["membership"] == "ban" ): await self.room_member_handler.update_membership( requester, UserID.from_string(old_event.state_key), new_room_id, "ban", ratelimit=False, content=old_event.content, ) # XXX invites/joins # XXX 3pid invites async def _move_aliases_to_new_room( self, requester: Requester, old_room_id: str, new_room_id: str, old_room_state: StateMap[str], ) -> None: # check to see if we have a canonical alias. canonical_alias_event = None canonical_alias_event_id = old_room_state.get((EventTypes.CanonicalAlias, "")) if canonical_alias_event_id: canonical_alias_event = await self.store.get_event(canonical_alias_event_id) await self.store.update_aliases_for_room(old_room_id, new_room_id) if not canonical_alias_event: return # If there is a canonical alias we need to update the one in the old # room and set one in the new one. old_canonical_alias_content = dict(canonical_alias_event.content) new_canonical_alias_content = {} canonical = canonical_alias_event.content.get("alias") if canonical and self.hs.is_mine_id(canonical): new_canonical_alias_content["alias"] = canonical old_canonical_alias_content.pop("alias", None) # We convert to a list as it will be a Tuple. old_alt_aliases = list(old_canonical_alias_content.get("alt_aliases", [])) if old_alt_aliases: old_canonical_alias_content["alt_aliases"] = old_alt_aliases new_alt_aliases = new_canonical_alias_content.setdefault("alt_aliases", []) for alias in canonical_alias_event.content.get("alt_aliases", []): try: if self.hs.is_mine_id(alias): new_alt_aliases.append(alias) old_alt_aliases.remove(alias) except Exception: logger.info( "Invalid alias %s in canonical alias event %s", alias, canonical_alias_event_id, ) if not old_alt_aliases: old_canonical_alias_content.pop("alt_aliases") # If a canonical alias event existed for the old room, fire a canonical # alias event for the new room with a copy of the information. try: await self.event_creation_handler.create_and_send_nonmember_event( requester, { "type": EventTypes.CanonicalAlias, "state_key": "", "room_id": old_room_id, "sender": requester.user.to_string(), "content": old_canonical_alias_content, }, ratelimit=False, ) except SynapseError as e: # again I'm not really expecting this to fail, but if it does, I'd rather # we returned the new room to the client at this point. logger.error("Unable to send updated alias events in old room: %s", e) try: await self.event_creation_handler.create_and_send_nonmember_event( requester, { "type": EventTypes.CanonicalAlias, "state_key": "", "room_id": new_room_id, "sender": requester.user.to_string(), "content": new_canonical_alias_content, }, ratelimit=False, ) except SynapseError as e: # again I'm not really expecting this to fail, but if it does, I'd rather # we returned the new room to the client at this point. logger.error("Unable to send updated alias events in new room: %s", e) async def create_room( self, requester: Requester, config: JsonDict, ratelimit: bool = True, creator_join_profile: Optional[JsonDict] = None, ) -> Tuple[str, Optional[RoomAlias], int]: """Creates a new room. Args: requester: The user who requested the room creation. config: A dict of configuration options. This will be the body of a /createRoom request; see https://spec.matrix.org/latest/client-server-api/#post_matrixclientv3createroom ratelimit: set to False to disable the rate limiter creator_join_profile: Set to override the displayname and avatar for the creating user in this room. If unset, displayname and avatar will be derived from the user's profile. If set, should contain the values to go in the body of the 'join' event (typically `avatar_url` and/or `displayname`. Returns: A 3-tuple containing: - the room ID; - if requested, the room alias, otherwise None; and - the `stream_id` of the last persisted event. Raises: SynapseError: if the room ID couldn't be stored, 3pid invitation config validation failed, or something went horribly wrong. ResourceLimitError: if server is blocked to some resource being exceeded """ user_id = requester.user.to_string() await self.auth_blocking.check_auth_blocking(requester=requester) if ( self._server_notices_mxid is not None and user_id == self._server_notices_mxid ): # allow the server notices mxid to create rooms is_requester_admin = True else: is_requester_admin = await self.auth.is_server_admin(requester) # Let the third party rules modify the room creation config if needed, or abort # the room creation entirely with an exception. await self.third_party_event_rules.on_create_room( requester, config, is_requester_admin=is_requester_admin ) invite_3pid_list = config.get("invite_3pid", []) invite_list = config.get("invite", []) # validate each entry for correctness for invite_3pid in invite_3pid_list: if not all( key in invite_3pid for key in ("medium", "address", "id_server", "id_access_token") ): raise SynapseError( HTTPStatus.BAD_REQUEST, "all of `medium`, `address`, `id_server` and `id_access_token` " "are required when making a 3pid invite", Codes.MISSING_PARAM, ) if not is_requester_admin: spam_check = await self.spam_checker.user_may_create_room(user_id) if spam_check != NOT_SPAM: raise SynapseError( 403, "You are not permitted to create rooms", errcode=spam_check[0], additional_fields=spam_check[1], ) if ratelimit: # Rate limit once in advance, but don't rate limit the individual # events in the room — room creation isn't atomic and it's very # janky if half the events in the initial state don't make it because # of rate limiting. await self.request_ratelimiter.ratelimit(requester) room_version_id = config.get( "room_version", self.config.server.default_room_version.identifier ) if not isinstance(room_version_id, str): raise SynapseError(400, "room_version must be a string", Codes.BAD_JSON) room_version = KNOWN_ROOM_VERSIONS.get(room_version_id) if room_version is None: raise SynapseError( 400, "Your homeserver does not support this room version", Codes.UNSUPPORTED_ROOM_VERSION, ) room_alias = None if "room_alias_name" in config: for wchar in string.whitespace: if wchar in config["room_alias_name"]: raise SynapseError(400, "Invalid characters in room alias") if ":" in config["room_alias_name"]: # Prevent someone from trying to pass in a full alias here. # Note that it's permissible for a room alias to have multiple # hash symbols at the start (notably bridged over from IRC, too), # but the first colon in the alias is defined to separate the local # part from the server name. # (remember server names can contain port numbers, also separated # by a colon. But under no circumstances should the local part be # allowed to contain a colon!) raise SynapseError( 400, "':' is not permitted in the room alias name. " "Please note this expects a local part — 'wombat', not '#wombat:example.com'.", ) room_alias = RoomAlias(config["room_alias_name"], self.hs.hostname) mapping = await self.store.get_association_from_room_alias(room_alias) if mapping: raise SynapseError(400, "Room alias already taken", Codes.ROOM_IN_USE) for i in invite_list: try: uid = UserID.from_string(i) parse_and_validate_server_name(uid.domain) except Exception: raise SynapseError(400, "Invalid user_id: %s" % (i,)) if (invite_list or invite_3pid_list) and requester.shadow_banned: # We randomly sleep a bit just to annoy the requester. await self.clock.sleep(random.randint(1, 10)) # Allow the request to go through, but remove any associated invites. invite_3pid_list = [] invite_list = [] if invite_list or invite_3pid_list: try: # If there are invites in the request, see if the ratelimiting settings # allow that number of invites to be sent from the current user. await self.room_member_handler.ratelimit_multiple_invites( requester, room_id=None, n_invites=len(invite_list) + len(invite_3pid_list), update=False, ) except LimitExceededError: raise SynapseError(400, "Cannot invite so many users at once") await self.event_creation_handler.assert_accepted_privacy_policy(requester) power_level_content_override = config.get("power_level_content_override") if ( power_level_content_override and "users" in power_level_content_override and user_id not in power_level_content_override["users"] ): raise SynapseError( 400, "Not a valid power_level_content_override: 'users' did not contain %s" % (user_id,), ) # The spec says rooms should default to private visibility if # `visibility` is not specified. visibility = config.get("visibility", "private") is_public = visibility == "public" room_id = await self._generate_and_create_room_id( creator_id=user_id, is_public=is_public, room_version=room_version, ) # Check whether this visibility value is blocked by a third party module allowed_by_third_party_rules = ( await ( self.third_party_event_rules.check_visibility_can_be_modified( room_id, visibility ) ) ) if not allowed_by_third_party_rules: raise SynapseError(403, "Room visibility value not allowed.") if is_public: room_aliases = [] if room_alias: room_aliases.append(room_alias.to_string()) if not self.config.roomdirectory.is_publishing_room_allowed( user_id, room_id, room_aliases ): # Let's just return a generic message, as there may be all sorts of # reasons why we said no. TODO: Allow configurable error messages # per alias creation rule? raise SynapseError(403, "Not allowed to publish room") directory_handler = self.hs.get_directory_handler() if room_alias: await directory_handler.create_association( requester=requester, room_id=room_id, room_alias=room_alias, servers=[self.hs.hostname], check_membership=False, ) raw_initial_state = config.get("initial_state", []) initial_state = OrderedDict() for val in raw_initial_state: initial_state[(val["type"], val.get("state_key", ""))] = val["content"] creation_content = config.get("creation_content", {}) # override any attempt to set room versions via the creation_content creation_content["room_version"] = room_version.identifier ( last_stream_id, last_sent_event_id, depth, ) = await self._send_events_for_new_room( requester, room_id, room_config=config, invite_list=invite_list, initial_state=initial_state, creation_content=creation_content, room_alias=room_alias, power_level_content_override=power_level_content_override, creator_join_profile=creator_join_profile, ) # we avoid dropping the lock between invites, as otherwise joins can # start coming in and making the createRoom slow. # # we also don't need to check the requester's shadow-ban here, as we # have already done so above (and potentially emptied invite_list). async with self.room_member_handler.member_linearizer.queue((room_id,)): content = {} is_direct = config.get("is_direct", None) if is_direct: content["is_direct"] = is_direct for invitee in invite_list: ( member_event_id, last_stream_id, ) = await self.room_member_handler.update_membership_locked( requester, UserID.from_string(invitee), room_id, "invite", ratelimit=False, content=content, new_room=True, prev_event_ids=[last_sent_event_id], depth=depth, ) last_sent_event_id = member_event_id depth += 1 for invite_3pid in invite_3pid_list: id_server = invite_3pid["id_server"] id_access_token = invite_3pid["id_access_token"] address = invite_3pid["address"] medium = invite_3pid["medium"] # Note that do_3pid_invite can raise a ShadowBanError, but this was # handled above by emptying invite_3pid_list. ( member_event_id, last_stream_id, ) = await self.hs.get_room_member_handler().do_3pid_invite( room_id, requester.user, medium, address, id_server, requester, txn_id=None, id_access_token=id_access_token, prev_event_ids=[last_sent_event_id], depth=depth, ) last_sent_event_id = member_event_id depth += 1 # Always wait for room creation to propagate before returning await self._replication.wait_for_stream_position( self.hs.config.worker.events_shard_config.get_instance(room_id), "events", last_stream_id, ) return room_id, room_alias, last_stream_id async def _send_events_for_new_room( self, creator: Requester, room_id: str, room_config: JsonDict, invite_list: List[str], initial_state: MutableStateMap, creation_content: JsonDict, room_alias: Optional[RoomAlias] = None, power_level_content_override: Optional[JsonDict] = None, creator_join_profile: Optional[JsonDict] = None, ) -> Tuple[int, str, int]: """Sends the initial events into a new room. Sends the room creation, membership, and power level events into the room sequentially, then creates and batches up the rest of the events to persist as a batch to the DB. `power_level_content_override` doesn't apply when initial state has power level state event content. Rate limiting should already have been applied by this point. Args: creator: the user requesting the room creation room_id: room id for the room being created room_config: A dict of configuration options. This will be the body of a /createRoom request; see https://spec.matrix.org/latest/client-server-api/#post_matrixclientv3createroom invite_list: a list of user ids to invite to the room initial_state: A list of state events to set in the new room. creation_content: Extra keys, such as m.federate, to be added to the content of the m.room.create event. room_alias: alias for the room power_level_content_override: The power level content to override in the default power level event. creator_join_profile: Set to override the displayname and avatar for the creating user in this room. Returns: A tuple containing the stream ID, event ID and depth of the last event sent to the room. """ creator_id = creator.user.to_string() event_keys = {"room_id": room_id, "sender": creator_id, "state_key": ""} depth = 1 # the most recently created event prev_event: List[str] = [] # a map of event types, state keys -> event_ids. We collect these mappings this as events are # created (but not persisted to the db) to determine state for future created events # (as this info can't be pulled from the db) state_map: MutableStateMap[str] = {} def create_event_dict(etype: str, content: JsonDict, **kwargs: Any) -> JsonDict: e = {"type": etype, "content": content} e.update(event_keys) e.update(kwargs) return e async def create_event( etype: str, content: JsonDict, for_batch: bool, **kwargs: Any, ) -> Tuple[ EventBase, synapse.events.snapshot.UnpersistedEventContextBase, Optional[dict], ]: """ Creates an event and associated event context. Args: etype: the type of event to be created content: content of the event for_batch: whether the event is being created for batch persisting. If bool for_batch is true, this will create an event using the prev_event_ids, and will create an event context for the event using the parameters state_map and current_state_group, thus these parameters must be provided in this case if for_batch is True. The subsequently created event and context are suitable for being batched up and bulk persisted to the database with other similarly created events. """ nonlocal depth nonlocal prev_event event_dict = create_event_dict(etype, content, **kwargs) ( new_event, new_unpersisted_context, third_party_event, ) = await self.event_creation_handler.create_event( creator, event_dict, prev_event_ids=prev_event, depth=depth, # Take a copy to ensure each event gets a unique copy of # state_map since it is modified below. state_map=dict(state_map), for_batch=for_batch, ) depth += 1 prev_event = [new_event.event_id] state_map[(new_event.type, new_event.state_key)] = new_event.event_id return new_event, new_unpersisted_context, third_party_event visibility = room_config.get("visibility", "private") preset_config = room_config.get( "preset", RoomCreationPreset.PRIVATE_CHAT if visibility == "private" else RoomCreationPreset.PUBLIC_CHAT, ) try: config = self._presets_dict[preset_config] except KeyError: raise SynapseError( 400, f"'{preset_config}' is not a valid preset", errcode=Codes.BAD_JSON ) creation_content.update({"creator": creator_id}) creation_event, unpersisted_creation_context, _ = await create_event( EventTypes.Create, creation_content, False ) creation_context = await unpersisted_creation_context.persist(creation_event) logger.debug("Sending %s in new room", EventTypes.Member) ev = await self.event_creation_handler.handle_new_client_event( requester=creator, events_and_context=[(creation_event, creation_context)], ratelimit=False, ignore_shadow_ban=True, ) last_sent_event_id = ev.event_id member_event_id, _ = await self.room_member_handler.update_membership( creator, creator.user, room_id, "join", ratelimit=False, content=creator_join_profile, new_room=True, prev_event_ids=[last_sent_event_id], depth=depth, ) prev_event = [member_event_id] # update the depth and state map here as the membership event has been created # through a different code path depth += 1 state_map[(EventTypes.Member, creator.user.to_string())] = member_event_id # we need the state group of the membership event as it is the current state group event_to_state = ( await self._storage_controllers.state.get_state_group_for_events( [member_event_id] ) ) current_state_group = event_to_state[member_event_id] events_to_send = [] third_party_events_to_append = [] # We treat the power levels override specially as this needs to be one # of the first events that get sent into a room. pl_content = initial_state.pop((EventTypes.PowerLevels, ""), None) if pl_content is not None: power_event, power_context, power_tp_event = await create_event( EventTypes.PowerLevels, pl_content, True ) events_to_send.append((power_event, power_context)) if power_tp_event: third_party_events_to_append.append(power_tp_event) else: power_level_content: JsonDict = { "users": {creator_id: 100}, "users_default": 0, "events": { EventTypes.Name: 50, EventTypes.PowerLevels: 100, EventTypes.RoomHistoryVisibility: 100, EventTypes.CanonicalAlias: 50, EventTypes.RoomAvatar: 50, EventTypes.Tombstone: 100, EventTypes.ServerACL: 100, EventTypes.RoomEncryption: 100, }, "events_default": 0, "state_default": 50, "ban": 50, "kick": 50, "redact": 50, "invite": 50, "historical": 100, } if config["original_invitees_have_ops"]: for invitee in invite_list: power_level_content["users"][invitee] = 100 # If the user supplied a preset name e.g. "private_chat", # we apply that preset power_level_content.update(config["power_level_content_override"]) # If the server config contains default_power_level_content_override, # and that contains information for this room preset, apply it. if self._default_power_level_content_override: override = self._default_power_level_content_override.get(preset_config) if override is not None: power_level_content.update(override) # Finally, if the user supplied specific permissions for this room, # apply those. if power_level_content_override: power_level_content.update(power_level_content_override) pl_event, pl_context, pl_tp_event = await create_event( EventTypes.PowerLevels, power_level_content, True, ) events_to_send.append((pl_event, pl_context)) if pl_tp_event: third_party_events_to_append.append(pl_tp_event) if room_alias and (EventTypes.CanonicalAlias, "") not in initial_state: room_alias_event, room_alias_context, ra_tp_event = await create_event( EventTypes.CanonicalAlias, {"alias": room_alias.to_string()}, True ) events_to_send.append((room_alias_event, room_alias_context)) if ra_tp_event: third_party_events_to_append.append(ra_tp_event) if (EventTypes.JoinRules, "") not in initial_state: join_rules_event, join_rules_context, jr_tp_event = await create_event( EventTypes.JoinRules, {"join_rule": config["join_rules"]}, True, ) events_to_send.append((join_rules_event, join_rules_context)) if jr_tp_event: third_party_events_to_append.append(jr_tp_event) if (EventTypes.RoomHistoryVisibility, "") not in initial_state: visibility_event, visibility_context, vis_tp_event = await create_event( EventTypes.RoomHistoryVisibility, {"history_visibility": config["history_visibility"]}, True, ) events_to_send.append((visibility_event, visibility_context)) if vis_tp_event: third_party_events_to_append.append(vis_tp_event) if config["guest_can_join"]: if (EventTypes.GuestAccess, "") not in initial_state: ( guest_access_event, guest_access_context, ga_tp_event, ) = await create_event( EventTypes.GuestAccess, {EventContentFields.GUEST_ACCESS: GuestAccess.CAN_JOIN}, True, ) events_to_send.append((guest_access_event, guest_access_context)) if ga_tp_event: third_party_events_to_append.append(ga_tp_event) for (etype, state_key), content in initial_state.items(): event, context, tp_event = await create_event( etype, content, True, state_key=state_key ) events_to_send.append((event, context)) if tp_event: third_party_events_to_append.append(tp_event) if config["encrypted"]: encryption_event, encryption_context, encrypt_tp_event = await create_event( EventTypes.RoomEncryption, {"algorithm": RoomEncryptionAlgorithms.DEFAULT}, True, state_key="", ) events_to_send.append((encryption_event, encryption_context)) if encrypt_tp_event: third_party_events_to_append.append(encrypt_tp_event) for event_dict in third_party_events_to_append: ( event, unpersisted_context, _, ) = await self.event_creation_handler.create_event( creator, event_dict, prev_event_ids=prev_event, state_map=state_map, for_batch=True, current_state_group=current_state_group, ) context = await unpersisted_context.persist(event) events_to_send.append((event, context)) if "name" in room_config: name = room_config["name"] name_event, name_context = await create_event( EventTypes.Name, {"name": name}, True, ) events_to_send.append((name_event, name_context)) if "topic" in room_config: topic = room_config["topic"] topic_event, topic_context = await create_event( EventTypes.Topic, {"topic": topic}, True, ) events_to_send.append((topic_event, topic_context)) datastore = self.hs.get_datastores().state events_and_context = ( await UnpersistedEventContext.batch_persist_unpersisted_contexts( events_to_send, room_id, current_state_group, datastore ) ) last_event = await self.event_creation_handler.handle_new_client_event( creator, events_and_context, ignore_shadow_ban=True, ratelimit=False, ) assert last_event.internal_metadata.stream_ordering is not None return last_event.internal_metadata.stream_ordering, last_event.event_id, depth def _generate_room_id(self) -> str: """Generates a random room ID. Room IDs look like "!opaque_id:domain" and are case-sensitive as per the spec at https://spec.matrix.org/v1.2/appendices/#room-ids-and-event-ids. Does not check for collisions with existing rooms or prevent future calls from returning the same room ID. To ensure the uniqueness of a new room ID, use `_generate_and_create_room_id` instead. Synapse's room IDs are 18 [a-zA-Z] characters long, which comes out to around 102 bits. Returns: A random room ID of the form "!opaque_id:domain". """ random_string = stringutils.random_string(18) return RoomID(random_string, self.hs.hostname).to_string() async def _generate_and_create_room_id( self, creator_id: str, is_public: bool, room_version: RoomVersion, ) -> str: # autogen room IDs and try to create it. We may clash, so just # try a few times till one goes through, giving up eventually. attempts = 0 while attempts < 5: try: gen_room_id = self._generate_room_id() await self.store.store_room( room_id=gen_room_id, room_creator_user_id=creator_id, is_public=is_public, room_version=room_version, ) return gen_room_id except StoreError: attempts += 1 raise StoreError(500, "Couldn't generate a room ID.") class RoomContextHandler: def __init__(self, hs: "HomeServer"): self.hs = hs self.auth = hs.get_auth() self.store = hs.get_datastores().main self._storage_controllers = hs.get_storage_controllers() self._state_storage_controller = self._storage_controllers.state self._relations_handler = hs.get_relations_handler() async def get_event_context( self, requester: Requester, room_id: str, event_id: str, limit: int, event_filter: Optional[Filter], use_admin_priviledge: bool = False, ) -> Optional[EventContext]: """Retrieves events, pagination tokens and state around a given event in a room. Args: requester room_id event_id limit: The maximum number of events to return in total (excluding state). event_filter: the filter to apply to the events returned (excluding the target event_id) use_admin_priviledge: if `True`, return all events, regardless of whether `user` has access to them. To be used **ONLY** from the admin API. Returns: dict, or None if the event isn't found """ user = requester.user if use_admin_priviledge: await assert_user_is_admin(self.auth, requester) before_limit = math.floor(limit / 2.0) after_limit = limit - before_limit is_user_in_room = await self.store.check_local_user_in_room( user_id=user.to_string(), room_id=room_id ) # The user is peeking if they aren't in the room already is_peeking = not is_user_in_room async def filter_evts(events: List[EventBase]) -> List[EventBase]: if use_admin_priviledge: return events return await filter_events_for_client( self._storage_controllers, user.to_string(), events, is_peeking=is_peeking, ) event = await self.store.get_event( event_id, get_prev_content=True, allow_none=True ) if not event: return None filtered = await filter_evts([event]) if not filtered: raise AuthError(403, "You don't have permission to access that event.") results = await self.store.get_events_around( room_id, event_id, before_limit, after_limit, event_filter ) events_before = results.events_before events_after = results.events_after if event_filter: events_before = await event_filter.filter(events_before) events_after = await event_filter.filter(events_after) events_before = await filter_evts(events_before) events_after = await filter_evts(events_after) # filter_evts can return a pruned event in case the user is allowed to see that # there's something there but not see the content, so use the event that's in # `filtered` rather than the event we retrieved from the datastore. event = filtered[0] # Fetch the aggregations. aggregations = await self._relations_handler.get_bundled_aggregations( itertools.chain(events_before, (event,), events_after), user.to_string(), ) if events_after: last_event_id = events_after[-1].event_id else: last_event_id = event_id if event_filter and event_filter.lazy_load_members: state_filter = StateFilter.from_lazy_load_member_list( ev.sender for ev in itertools.chain( events_before, (event,), events_after, ) ) else: state_filter = StateFilter.all() # XXX: why do we return the state as of the last event rather than the # first? Shouldn't we be consistent with /sync? # https://github.com/matrix-org/matrix-doc/issues/687 state = await self._state_storage_controller.get_state_for_events( [last_event_id], state_filter=state_filter ) state_events = list(state[last_event_id].values()) if event_filter: state_events = await event_filter.filter(state_events) # We use a dummy token here as we only care about the room portion of # the token, which we replace. token = StreamToken.START return EventContext( events_before=events_before, event=event, events_after=events_after, state=state_events, aggregations=aggregations, start=await token.copy_and_replace( StreamKeyType.ROOM, results.start ).to_string(self.store), end=await token.copy_and_replace(StreamKeyType.ROOM, results.end).to_string( self.store ), ) class TimestampLookupHandler: def __init__(self, hs: "HomeServer"): self.server_name = hs.hostname self.store = hs.get_datastores().main self.state_handler = hs.get_state_handler() self.federation_client = hs.get_federation_client() self.federation_event_handler = hs.get_federation_event_handler() self._storage_controllers = hs.get_storage_controllers() async def get_event_for_timestamp( self, requester: Requester, room_id: str, timestamp: int, direction: Direction, ) -> Tuple[str, int]: """Find the closest event to the given timestamp in the given direction. If we can't find an event locally or the event we have locally is next to a gap, it will ask other federated homeservers for an event. Args: requester: The user making the request according to the access token room_id: Room to fetch the event from timestamp: The point in time (inclusive) we should navigate from in the given direction to find the closest event. direction: indicates whether we should navigate forward or backward from the given timestamp to find the closest event. Returns: A tuple containing the `event_id` closest to the given timestamp in the given direction and the `origin_server_ts`. Raises: SynapseError if unable to find any event locally in the given direction """ logger.debug( "get_event_for_timestamp(room_id=%s, timestamp=%s, direction=%s) Finding closest event...", room_id, timestamp, direction, ) local_event_id = await self.store.get_event_id_for_timestamp( room_id, timestamp, direction ) logger.debug( "get_event_for_timestamp: locally, we found event_id=%s closest to timestamp=%s", local_event_id, timestamp, ) # Check for gaps in the history where events could be hiding in between # the timestamp given and the event we were able to find locally is_event_next_to_backward_gap = False is_event_next_to_forward_gap = False local_event = None if local_event_id: local_event = await self.store.get_event( local_event_id, allow_none=False, allow_rejected=False ) if direction == Direction.FORWARDS: # We only need to check for a backward gap if we're looking forwards # to ensure there is nothing in between. is_event_next_to_backward_gap = ( await self.store.is_event_next_to_backward_gap(local_event) ) elif direction == Direction.BACKWARDS: # We only need to check for a forward gap if we're looking backwards # to ensure there is nothing in between is_event_next_to_forward_gap = ( await self.store.is_event_next_to_forward_gap(local_event) ) # If we found a gap, we should probably ask another homeserver first # about more history in between if ( not local_event_id or is_event_next_to_backward_gap or is_event_next_to_forward_gap ): logger.debug( "get_event_for_timestamp: locally, we found event_id=%s closest to timestamp=%s which is next to a gap in event history so we're asking other homeservers first", local_event_id, timestamp, ) likely_domains = ( await self._storage_controllers.state.get_current_hosts_in_room_ordered( room_id ) ) remote_response = await self.federation_client.timestamp_to_event( destinations=likely_domains, room_id=room_id, timestamp=timestamp, direction=direction, ) if remote_response is not None: logger.debug( "get_event_for_timestamp: remote_response=%s", remote_response, ) remote_event_id = remote_response.event_id remote_origin_server_ts = remote_response.origin_server_ts # Backfill this event so we can get a pagination token for # it with `/context` and paginate `/messages` from this # point. pulled_pdu_info = await self.federation_event_handler.backfill_event_id( likely_domains, room_id, remote_event_id ) remote_event = pulled_pdu_info.pdu # XXX: When we see that the remote server is not trustworthy, # maybe we should not ask them first in the future. if remote_origin_server_ts != remote_event.origin_server_ts: logger.info( "get_event_for_timestamp: Remote server (%s) claimed that remote_event_id=%s occured at remote_origin_server_ts=%s but that isn't true (actually occured at %s). Their claims are dubious and we should consider not trusting them.", pulled_pdu_info.pull_origin, remote_event_id, remote_origin_server_ts, remote_event.origin_server_ts, ) # Only return the remote event if it's closer than the local event if not local_event or ( abs(remote_event.origin_server_ts - timestamp) < abs(local_event.origin_server_ts - timestamp) ): logger.info( "get_event_for_timestamp: returning remote_event_id=%s (%s) since it's closer to timestamp=%s than local_event=%s (%s)", remote_event_id, remote_event.origin_server_ts, timestamp, local_event.event_id if local_event else None, local_event.origin_server_ts if local_event else None, ) return remote_event_id, remote_origin_server_ts # To appease mypy, we have to add both of these conditions to check for # `None`. We only expect `local_event` to be `None` when # `local_event_id` is `None` but mypy isn't as smart and assuming as us. if not local_event_id or not local_event: raise SynapseError( 404, "Unable to find event from %s in direction %s" % (timestamp, direction), errcode=Codes.NOT_FOUND, ) return local_event_id, local_event.origin_server_ts class RoomEventSource(EventSource[RoomStreamToken, EventBase]): def __init__(self, hs: "HomeServer"): self.store = hs.get_datastores().main async def get_new_events( self, user: UserID, from_key: RoomStreamToken, limit: int, room_ids: StrCollection, is_guest: bool, explicit_room_id: Optional[str] = None, ) -> Tuple[List[EventBase], RoomStreamToken]: # We just ignore the key for now. to_key = self.get_current_key() if from_key.topological: logger.warning("Stream has topological part!!!! %r", from_key) from_key = RoomStreamToken(None, from_key.stream) app_service = self.store.get_app_service_by_user_id(user.to_string()) if app_service: # We no longer support AS users using /sync directly. # See https://github.com/matrix-org/matrix-doc/issues/1144 raise NotImplementedError() else: room_events = await self.store.get_membership_changes_for_user( user.to_string(), from_key, to_key ) room_to_events = await self.store.get_room_events_stream_for_rooms( room_ids=room_ids, from_key=from_key, to_key=to_key, limit=limit or 10, order="ASC", ) events = list(room_events) events.extend(e for evs, _ in room_to_events.values() for e in evs) events.sort(key=lambda e: e.internal_metadata.order) if limit: events[:] = events[:limit] if events: end_key = events[-1].internal_metadata.after else: end_key = to_key return events, end_key def get_current_key(self) -> RoomStreamToken: return self.store.get_room_max_token() def get_current_key_for_room(self, room_id: str) -> Awaitable[RoomStreamToken]: return self.store.get_current_room_stream_token_for_room_id(room_id) class ShutdownRoomResponse(TypedDict): """ Attributes: kicked_users: An array of users (`user_id`) that were kicked. failed_to_kick_users: An array of users (`user_id`) that that were not kicked. local_aliases: An array of strings representing the local aliases that were migrated from the old room to the new. new_room_id: A string representing the room ID of the new room. """ kicked_users: List[str] failed_to_kick_users: List[str] local_aliases: List[str] new_room_id: Optional[str] class RoomShutdownHandler: DEFAULT_MESSAGE = ( "Sharing illegal content on this server is not permitted and rooms in" " violation will be blocked." ) DEFAULT_ROOM_NAME = "Content Violation Notification" def __init__(self, hs: "HomeServer"): self.hs = hs self.room_member_handler = hs.get_room_member_handler() self._room_creation_handler = hs.get_room_creation_handler() self._replication = hs.get_replication_data_handler() self._third_party_rules = hs.get_third_party_event_rules() self.event_creation_handler = hs.get_event_creation_handler() self.store = hs.get_datastores().main async def shutdown_room( self, room_id: str, requester_user_id: str, new_room_user_id: Optional[str] = None, new_room_name: Optional[str] = None, message: Optional[str] = None, block: bool = False, ) -> ShutdownRoomResponse: """ Shuts down a room. Moves all local users and room aliases automatically to a new room if `new_room_user_id` is set. Otherwise local users only leave the room without any information. The new room will be created with the user specified by the `new_room_user_id` parameter as room administrator and will contain a message explaining what happened. Users invited to the new room will have power level `-10` by default, and thus be unable to speak. The local server will only have the power to move local user and room aliases to the new room. Users on other servers will be unaffected. Args: room_id: The ID of the room to shut down. requester_user_id: User who requested the action and put the room on the blocking list. new_room_user_id: If set, a new room will be created with this user ID as the creator and admin, and all users in the old room will be moved into that room. If not set, no new room will be created and the users will just be removed from the old room. new_room_name: A string representing the name of the room that new users will be invited to. Defaults to `Content Violation Notification` message: A string containing the first message that will be sent as `new_room_user_id` in the new room. Ideally this will clearly convey why the original room was shut down. Defaults to `Sharing illegal content on this server is not permitted and rooms in violation will be blocked.` block: If set to `True`, users will be prevented from joining the old room. This option can also be used to pre-emptively block a room, even if it's unknown to this homeserver. In this case, the room will be blocked, and no further action will be taken. If `False`, attempting to delete an unknown room is invalid. Defaults to `False`. Returns: a dict containing the following keys: kicked_users: An array of users (`user_id`) that were kicked. failed_to_kick_users: An array of users (`user_id`) that that were not kicked. local_aliases: An array of strings representing the local aliases that were migrated from the old room to the new. new_room_id: A string representing the room ID of the new room, or None if no such room was created. """ if not new_room_name: new_room_name = self.DEFAULT_ROOM_NAME if not message: message = self.DEFAULT_MESSAGE if not RoomID.is_valid(room_id): raise SynapseError(400, "%s is not a legal room ID" % (room_id,)) if not await self._third_party_rules.check_can_shutdown_room( requester_user_id, room_id ): raise SynapseError( 403, "Shutdown of this room is forbidden", Codes.FORBIDDEN ) # Action the block first (even if the room doesn't exist yet) if block: # This will work even if the room is already blocked, but that is # desirable in case the first attempt at blocking the room failed below. await self.store.block_room(room_id, requester_user_id) if not await self.store.get_room(room_id): # if we don't know about the room, there is nothing left to do. return { "kicked_users": [], "failed_to_kick_users": [], "local_aliases": [], "new_room_id": None, } if new_room_user_id is not None: if not self.hs.is_mine_id(new_room_user_id): raise SynapseError( 400, "User must be our own: %s" % (new_room_user_id,) ) room_creator_requester = create_requester( new_room_user_id, authenticated_entity=requester_user_id ) new_room_id, _, stream_id = await self._room_creation_handler.create_room( room_creator_requester, config={ "preset": RoomCreationPreset.PUBLIC_CHAT, "name": new_room_name, "power_level_content_override": {"users_default": -10}, }, ratelimit=False, ) logger.info( "Shutting down room %r, joining to new room: %r", room_id, new_room_id ) # We now wait for the create room to come back in via replication so # that we can assume that all the joins/invites have propagated before # we try and auto join below. await self._replication.wait_for_stream_position( self.hs.config.worker.events_shard_config.get_instance(new_room_id), "events", stream_id, ) else: new_room_id = None logger.info("Shutting down room %r", room_id) users = await self.store.get_users_in_room(room_id) kicked_users = [] failed_to_kick_users = [] for user_id in users: if not self.hs.is_mine_id(user_id): continue logger.info("Kicking %r from %r...", user_id, room_id) try: # Kick users from room target_requester = create_requester( user_id, authenticated_entity=requester_user_id ) _, stream_id = await self.room_member_handler.update_membership( requester=target_requester, target=target_requester.user, room_id=room_id, action=Membership.LEAVE, content={}, ratelimit=False, require_consent=False, ) # Wait for leave to come in over replication before trying to forget. await self._replication.wait_for_stream_position( self.hs.config.worker.events_shard_config.get_instance(room_id), "events", stream_id, ) await self.room_member_handler.forget(target_requester.user, room_id) # Join users to new room if new_room_user_id: assert new_room_id is not None await self.room_member_handler.update_membership( requester=target_requester, target=target_requester.user, room_id=new_room_id, action=Membership.JOIN, content={}, ratelimit=False, require_consent=False, ) kicked_users.append(user_id) except Exception: logger.exception( "Failed to leave old room and join new room for %r", user_id ) failed_to_kick_users.append(user_id) # Send message in new room and move aliases if new_room_user_id: await self.event_creation_handler.create_and_send_nonmember_event( room_creator_requester, { "type": "m.room.message", "content": {"body": message, "msgtype": "m.text"}, "room_id": new_room_id, "sender": new_room_user_id, }, ratelimit=False, ) aliases_for_room = await self.store.get_aliases_for_room(room_id) assert new_room_id is not None await self.store.update_aliases_for_room( room_id, new_room_id, requester_user_id ) else: aliases_for_room = [] return { "kicked_users": kicked_users, "failed_to_kick_users": failed_to_kick_users, "local_aliases": list(aliases_for_room), "new_room_id": new_room_id, }