diff --git a/changelog.d/17320.feature b/changelog.d/17320.feature new file mode 100644 index 0000000000..1e524f3eca --- /dev/null +++ b/changelog.d/17320.feature @@ -0,0 +1 @@ +Add `rooms` data to experimental [MSC3575](https://github.com/matrix-org/matrix-spec-proposals/pull/3575) Sliding Sync `/sync` endpoint. diff --git a/synapse/events/utils.py b/synapse/events/utils.py index b997d82d71..f937fd4698 100644 --- a/synapse/events/utils.py +++ b/synapse/events/utils.py @@ -836,3 +836,21 @@ def maybe_upsert_event_field( del container[key] return upsert_okay + + +def strip_event(event: EventBase) -> JsonDict: + """ + Used for "stripped state" events which provide a simplified view of the state of a + room intended to help a potential joiner identify the room (relevant when the user + is invited or knocked). + + Stripped state events can only have the `sender`, `type`, `state_key` and `content` + properties present. + """ + + return { + "type": event.type, + "state_key": event.state_key, + "content": event.content, + "sender": event.sender, + } diff --git a/synapse/handlers/sliding_sync.py b/synapse/handlers/sliding_sync.py index 847a638bba..3ce10d3ea7 100644 --- a/synapse/handlers/sliding_sync.py +++ b/synapse/handlers/sliding_sync.py @@ -18,22 +18,29 @@ # # import logging -from typing import TYPE_CHECKING, Dict, List, Optional, Tuple +from collections import defaultdict +from typing import TYPE_CHECKING, Any, Dict, List, Optional, Set, Tuple +import attr from immutabledict import immutabledict -from synapse.api.constants import AccountDataTypes, EventTypes, Membership +from synapse.api.constants import AccountDataTypes, Direction, EventTypes, Membership from synapse.events import EventBase -from synapse.storage.roommember import RoomsForUser +from synapse.events.utils import strip_event +from synapse.handlers.relations import BundledAggregations +from synapse.storage.databases.main.stream import CurrentStateDeltaMembership from synapse.types import ( + JsonDict, PersistedEventPosition, Requester, RoomStreamToken, + StreamKeyType, StreamToken, UserID, ) from synapse.types.handlers import OperationType, SlidingSyncConfig, SlidingSyncResult from synapse.types.state import StateFilter +from synapse.visibility import filter_events_for_client if TYPE_CHECKING: from synapse.server import HomeServer @@ -41,27 +48,6 @@ if TYPE_CHECKING: logger = logging.getLogger(__name__) -def convert_event_to_rooms_for_user(event: EventBase) -> RoomsForUser: - """ - Quick helper to convert an event to a `RoomsForUser` object. - """ - # These fields should be present for all persisted events - assert event.internal_metadata.stream_ordering is not None - assert event.internal_metadata.instance_name is not None - - return RoomsForUser( - room_id=event.room_id, - sender=event.sender, - membership=event.membership, - event_id=event.event_id, - event_pos=PersistedEventPosition( - event.internal_metadata.instance_name, - event.internal_metadata.stream_ordering, - ), - room_version_id=event.room_version.identifier, - ) - - def filter_membership_for_sync(*, membership: str, user_id: str, sender: str) -> bool: """ Returns True if the membership event should be included in the sync response, @@ -82,6 +68,47 @@ def filter_membership_for_sync(*, membership: str, user_id: str, sender: str) -> return membership != Membership.LEAVE or sender != user_id +# We can't freeze this class because we want to update it in place with the +# de-duplicated data. +@attr.s(slots=True, auto_attribs=True) +class RoomSyncConfig: + """ + Holds the config for what data we should fetch for a room in the sync response. + + Attributes: + timeline_limit: The maximum number of events to return in the timeline. + required_state: The set of state events requested for the room. The + values are close to `StateKey` but actually use a syntax where you can + provide `*` wildcard and `$LAZY` for lazy room members as the `state_key` part + of the tuple (type, state_key). + """ + + timeline_limit: int + required_state: Set[Tuple[str, str]] + + +@attr.s(slots=True, frozen=True, auto_attribs=True) +class _RoomMembershipForUser: + """ + Attributes: + event_id: The event ID of the membership event + event_pos: The stream position of the membership event + membership: The membership state of the user in the room + sender: The person who sent the membership event + newly_joined: Whether the user newly joined the room during the given token + range + """ + + event_id: str + event_pos: PersistedEventPosition + membership: str + sender: str + newly_joined: bool + + def copy_and_replace(self, **kwds: Any) -> "_RoomMembershipForUser": + return attr.evolve(self, **kwds) + + class SlidingSyncHandler: def __init__(self, hs: "HomeServer"): self.clock = hs.get_clock() @@ -90,6 +117,7 @@ class SlidingSyncHandler: self.auth_blocking = hs.get_auth_blocking() self.notifier = hs.get_notifier() self.event_sources = hs.get_event_sources() + self.relations_handler = hs.get_relations_handler() self.rooms_to_exclude_globally = hs.config.server.rooms_to_exclude_from_sync async def wait_for_sync_for_user( @@ -201,6 +229,7 @@ class SlidingSyncHandler: # Assemble sliding window lists lists: Dict[str, SlidingSyncResult.SlidingWindowList] = {} + relevant_room_map: Dict[str, RoomSyncConfig] = {} if sync_config.lists: # Get all of the room IDs that the user should be able to see in the sync # response @@ -225,29 +254,66 @@ class SlidingSyncHandler: ops: List[SlidingSyncResult.SlidingWindowList.Operation] = [] if list_config.ranges: for range in list_config.ranges: + sliced_room_ids = [ + room_id + for room_id, _ in sorted_room_info[range[0] : range[1]] + ] + ops.append( SlidingSyncResult.SlidingWindowList.Operation( op=OperationType.SYNC, range=range, - room_ids=[ - room_id - for room_id, _ in sorted_room_info[ - range[0] : range[1] - ] - ], + room_ids=sliced_room_ids, ) ) + # Take the superset of the `RoomSyncConfig` for each room + for room_id in sliced_room_ids: + if relevant_room_map.get(room_id) is not None: + # Take the highest timeline limit + if ( + relevant_room_map[room_id].timeline_limit + < list_config.timeline_limit + ): + relevant_room_map[room_id].timeline_limit = ( + list_config.timeline_limit + ) + + # Union the required state + relevant_room_map[room_id].required_state.update( + list_config.required_state + ) + else: + relevant_room_map[room_id] = RoomSyncConfig( + timeline_limit=list_config.timeline_limit, + required_state=set(list_config.required_state), + ) + lists[list_key] = SlidingSyncResult.SlidingWindowList( count=len(sorted_room_info), ops=ops, ) + # TODO: if (sync_config.room_subscriptions): + + # Fetch room data + rooms: Dict[str, SlidingSyncResult.RoomResult] = {} + for room_id, room_sync_config in relevant_room_map.items(): + room_sync_result = await self.get_room_sync_data( + user=sync_config.user, + room_id=room_id, + room_sync_config=room_sync_config, + rooms_membership_for_user_at_to_token=sync_room_map[room_id], + from_token=from_token, + to_token=to_token, + ) + + rooms[room_id] = room_sync_result + return SlidingSyncResult( next_pos=to_token, lists=lists, - # TODO: Gather room data for rooms in lists and `sync_config.room_subscriptions` - rooms={}, + rooms=rooms, extensions={}, ) @@ -256,7 +322,7 @@ class SlidingSyncHandler: user: UserID, to_token: StreamToken, from_token: Optional[StreamToken] = None, - ) -> Dict[str, RoomsForUser]: + ) -> Dict[str, _RoomMembershipForUser]: """ Fetch room IDs that should be listed for this user in the sync response (the full room list that will be filtered, sorted, and sliced). @@ -305,13 +371,17 @@ class SlidingSyncHandler: # Our working list of rooms that can show up in the sync response sync_room_id_set = { - room_for_user.room_id: room_for_user - for room_for_user in room_for_user_list - if filter_membership_for_sync( + # Note: The `room_for_user` we're assigning here will need to be fixed up + # (below) because they are potentially from the current snapshot time + # instead from the time of the `to_token`. + room_for_user.room_id: _RoomMembershipForUser( + event_id=room_for_user.event_id, + event_pos=room_for_user.event_pos, membership=room_for_user.membership, - user_id=user_id, sender=room_for_user.sender, + newly_joined=False, ) + for room_for_user in room_for_user_list } # Get the `RoomStreamToken` that represents the spot we queried up to when we got @@ -346,14 +416,9 @@ class SlidingSyncHandler: # # - 1a) Remove rooms that the user joined after the `to_token` # - 1b) Add back rooms that the user left after the `to_token` + # - 1c) Update room membership events to the point in time of the `to_token` # - 2) Add back newly_left rooms (> `from_token` and <= `to_token`) - # - # Below, we're doing two separate lookups for membership changes. We could - # request everything for both fixups in one range, [`from_token.room_key`, - # `membership_snapshot_token`), but we want to avoid raw `stream_ordering` - # comparison without `instance_name` (which is flawed). We could refactor - # `event.internal_metadata` to include `instance_name` but it might turn out a - # little difficult and a bigger, broader Synapse change than we want to make. + # - 3) Figure out which rooms are `newly_joined` # 1) ----------------------------------------------------- @@ -363,159 +428,215 @@ class SlidingSyncHandler: # If our `to_token` is already the same or ahead of the latest room membership # for the user, we don't need to do any "2)" fix-ups and can just straight-up # use the room list from the snapshot as a base (nothing has changed) - membership_change_events_after_to_token = [] + current_state_delta_membership_changes_after_to_token = [] if not membership_snapshot_token.is_before_or_eq(to_token.room_key): - membership_change_events_after_to_token = ( - await self.store.get_membership_changes_for_user( + current_state_delta_membership_changes_after_to_token = ( + await self.store.get_current_state_delta_membership_changes_for_user( user_id, from_key=to_token.room_key, to_key=membership_snapshot_token, - excluded_rooms=self.rooms_to_exclude_globally, + excluded_room_ids=self.rooms_to_exclude_globally, ) ) - # 1) Assemble a list of the last membership events in some given ranges. Someone - # could have left and joined multiple times during the given range but we only - # care about end-result so we grab the last one. - last_membership_change_by_room_id_after_to_token: Dict[str, EventBase] = {} - # We also need the first membership event after the `to_token` so we can step - # backward to the previous membership that would apply to the from/to range. - first_membership_change_by_room_id_after_to_token: Dict[str, EventBase] = {} - for event in membership_change_events_after_to_token: - last_membership_change_by_room_id_after_to_token[event.room_id] = event + # 1) Assemble a list of the first membership event after the `to_token` so we can + # step backward to the previous membership that would apply to the from/to + # range. + first_membership_change_by_room_id_after_to_token: Dict[ + str, CurrentStateDeltaMembership + ] = {} + for membership_change in current_state_delta_membership_changes_after_to_token: # Only set if we haven't already set it first_membership_change_by_room_id_after_to_token.setdefault( - event.room_id, event + membership_change.room_id, membership_change ) # 1) Fixup + # + # Since we fetched a snapshot of the users room list at some point in time after + # the from/to tokens, we need to revert/rewind some membership changes to match + # the point in time of the `to_token`. + prev_event_ids_in_from_to_range: List[str] = [] for ( - last_membership_change_after_to_token - ) in last_membership_change_by_room_id_after_to_token.values(): - room_id = last_membership_change_after_to_token.room_id + room_id, + first_membership_change_after_to_token, + ) in first_membership_change_by_room_id_after_to_token.items(): + # 1a) Remove rooms that the user joined after the `to_token` + if first_membership_change_after_to_token.prev_event_id is None: + sync_room_id_set.pop(room_id, None) + # 1b) 1c) From the first membership event after the `to_token`, step backward to the + # previous membership that would apply to the from/to range. + else: + prev_event_ids_in_from_to_range.append( + first_membership_change_after_to_token.prev_event_id + ) - # We want to find the first membership change after the `to_token` then step - # backward to know the membership in the from/to range. - first_membership_change_after_to_token = ( - first_membership_change_by_room_id_after_to_token.get(room_id) + # 1) Fixup (more) + # + # 1b) 1c) Fetch the previous membership events that apply to the from/to range + # and fixup our working list. + prev_events_in_from_to_range = await self.store.get_events( + prev_event_ids_in_from_to_range + ) + for prev_event_in_from_to_range in prev_events_in_from_to_range.values(): + # These fields should be present for all persisted events + assert ( + prev_event_in_from_to_range.internal_metadata.instance_name is not None ) - assert first_membership_change_after_to_token is not None, ( - "If there was a `last_membership_change_after_to_token` that we're iterating over, " - + "then there should be corresponding a first change. For example, even if there " - + "is only one event after the `to_token`, the first and last event will be same event. " - + "This is probably a mistake in assembling the `last_membership_change_by_room_id_after_to_token`" - + "/`first_membership_change_by_room_id_after_to_token` dicts above." - ) - # TODO: Instead of reading from `unsigned`, refactor this to use the - # `current_state_delta_stream` table in the future. Probably a new - # `get_membership_changes_for_user()` function that uses - # `current_state_delta_stream` with a join to `room_memberships`. This would - # help in state reset scenarios since `prev_content` is looking at the - # current branch vs the current room state. This is all just data given to - # the client so no real harm to data integrity, but we'd like to be nice to - # the client. Since the `current_state_delta_stream` table is new, it - # doesn't have all events in it. Since this is Sliding Sync, if we ever need - # to, we can signal the client to throw all of their state away by sending - # "operation: RESET". - prev_content = first_membership_change_after_to_token.unsigned.get( - "prev_content", {} - ) - prev_membership = prev_content.get("membership", None) - prev_sender = first_membership_change_after_to_token.unsigned.get( - "prev_sender", None + assert ( + prev_event_in_from_to_range.internal_metadata.stream_ordering + is not None ) - # Check if the previous membership (membership that applies to the from/to - # range) should be included in our `sync_room_id_set` - should_prev_membership_be_included = ( - prev_membership is not None - and prev_sender is not None - and filter_membership_for_sync( - membership=prev_membership, - user_id=user_id, - sender=prev_sender, + # 1b) 1c) Update the membership with what we found + sync_room_id_set[prev_event_in_from_to_range.room_id] = ( + _RoomMembershipForUser( + event_id=prev_event_in_from_to_range.event_id, + event_pos=PersistedEventPosition( + instance_name=prev_event_in_from_to_range.internal_metadata.instance_name, + stream=prev_event_in_from_to_range.internal_metadata.stream_ordering, + ), + membership=prev_event_in_from_to_range.membership, + sender=prev_event_in_from_to_range.sender, + newly_joined=False, ) ) - # Check if the last membership (membership that applies to our snapshot) was - # already included in our `sync_room_id_set` - was_last_membership_already_included = filter_membership_for_sync( - membership=last_membership_change_after_to_token.membership, + filtered_sync_room_id_set = { + room_id: room_membership_for_user + for room_id, room_membership_for_user in sync_room_id_set.items() + if filter_membership_for_sync( + membership=room_membership_for_user.membership, user_id=user_id, - sender=last_membership_change_after_to_token.sender, + sender=room_membership_for_user.sender, ) - - # 1a) Add back rooms that the user left after the `to_token` - # - # For example, if the last membership event after the `to_token` is a leave - # event, then the room was excluded from `sync_room_id_set` when we first - # crafted it above. We should add these rooms back as long as the user also - # was part of the room before the `to_token`. - if ( - not was_last_membership_already_included - and should_prev_membership_be_included - ): - sync_room_id_set[room_id] = convert_event_to_rooms_for_user( - last_membership_change_after_to_token - ) - # 1b) Remove rooms that the user joined (hasn't left) after the `to_token` - # - # For example, if the last membership event after the `to_token` is a "join" - # event, then the room was included `sync_room_id_set` when we first crafted - # it above. We should remove these rooms as long as the user also wasn't - # part of the room before the `to_token`. - elif ( - was_last_membership_already_included - and not should_prev_membership_be_included - ): - del sync_room_id_set[room_id] + } # 2) ----------------------------------------------------- # We fix-up newly_left rooms after the first fixup because it may have removed - # some left rooms that we can figure out our newly_left in the following code + # some left rooms that we can figure out are newly_left in the following code # 2) Fetch membership changes that fall in the range from `from_token` up to `to_token` - membership_change_events_in_from_to_range = [] + current_state_delta_membership_changes_in_from_to_range = [] if from_token: - membership_change_events_in_from_to_range = ( - await self.store.get_membership_changes_for_user( + current_state_delta_membership_changes_in_from_to_range = ( + await self.store.get_current_state_delta_membership_changes_for_user( user_id, from_key=from_token.room_key, to_key=to_token.room_key, - excluded_rooms=self.rooms_to_exclude_globally, + excluded_room_ids=self.rooms_to_exclude_globally, ) ) # 2) Assemble a list of the last membership events in some given ranges. Someone # could have left and joined multiple times during the given range but we only # care about end-result so we grab the last one. - last_membership_change_by_room_id_in_from_to_range: Dict[str, EventBase] = {} - for event in membership_change_events_in_from_to_range: - last_membership_change_by_room_id_in_from_to_range[event.room_id] = event + last_membership_change_by_room_id_in_from_to_range: Dict[ + str, CurrentStateDeltaMembership + ] = {} + # We also want to assemble a list of the first membership events during the token + # range so we can step backward to the previous membership that would apply to + # before the token range to see if we have `newly_joined` the room. + first_membership_change_by_room_id_in_from_to_range: Dict[ + str, CurrentStateDeltaMembership + ] = {} + non_join_event_ids_by_room_id_in_from_to_range: Dict[str, List[str]] = ( + defaultdict(list) + ) + for ( + membership_change + ) in current_state_delta_membership_changes_in_from_to_range: + room_id = membership_change.room_id + + last_membership_change_by_room_id_in_from_to_range[room_id] = ( + membership_change + ) + + # Only set if we haven't already set it + first_membership_change_by_room_id_in_from_to_range.setdefault( + room_id, membership_change + ) + + if membership_change.membership != Membership.JOIN: + non_join_event_ids_by_room_id_in_from_to_range[room_id].append( + membership_change.event_id + ) # 2) Fixup + # + # 3) We also want to assemble a list of possibly newly joined rooms. Someone + # could have left and joined multiple times during the given range but we only + # care about whether they are joined at the end of the token range so we are + # working with the last membership even in the token range. + possibly_newly_joined_room_ids = set() for ( last_membership_change_in_from_to_range ) in last_membership_change_by_room_id_in_from_to_range.values(): room_id = last_membership_change_in_from_to_range.room_id + if last_membership_change_in_from_to_range.membership == Membership.JOIN: + possibly_newly_joined_room_ids.add(room_id) + # 2) Add back newly_left rooms (> `from_token` and <= `to_token`). We # include newly_left rooms because the last event that the user should see # is their own leave event if last_membership_change_in_from_to_range.membership == Membership.LEAVE: - sync_room_id_set[room_id] = convert_event_to_rooms_for_user( - last_membership_change_in_from_to_range + filtered_sync_room_id_set[room_id] = _RoomMembershipForUser( + event_id=last_membership_change_in_from_to_range.event_id, + event_pos=last_membership_change_in_from_to_range.event_pos, + membership=last_membership_change_in_from_to_range.membership, + sender=last_membership_change_in_from_to_range.sender, + newly_joined=False, ) - return sync_room_id_set + # 3) Figure out `newly_joined` + prev_event_ids_before_token_range: List[str] = [] + for possibly_newly_joined_room_id in possibly_newly_joined_room_ids: + non_joins_for_room = non_join_event_ids_by_room_id_in_from_to_range[ + possibly_newly_joined_room_id + ] + if len(non_joins_for_room) > 0: + # We found a `newly_joined` room (we left and joined within the token range) + filtered_sync_room_id_set[room_id] = filtered_sync_room_id_set[ + room_id + ].copy_and_replace(newly_joined=True) + else: + prev_event_id = first_membership_change_by_room_id_in_from_to_range[ + room_id + ].prev_event_id + + if prev_event_id is None: + # We found a `newly_joined` room (we are joining the room for the + # first time within the token range) + filtered_sync_room_id_set[room_id] = filtered_sync_room_id_set[ + room_id + ].copy_and_replace(newly_joined=True) + else: + # Last resort, we need to step back to the previous membership event + # just before the token range to see if we're joined then or not. + prev_event_ids_before_token_range.append(prev_event_id) + + # 3) more + prev_events_before_token_range = await self.store.get_events( + prev_event_ids_before_token_range + ) + for prev_event_before_token_range in prev_events_before_token_range.values(): + if prev_event_before_token_range.membership != Membership.JOIN: + # We found a `newly_joined` room (we left before the token range + # and joined within the token range) + filtered_sync_room_id_set[room_id] = filtered_sync_room_id_set[ + room_id + ].copy_and_replace(newly_joined=True) + + return filtered_sync_room_id_set async def filter_rooms( self, user: UserID, - sync_room_map: Dict[str, RoomsForUser], + sync_room_map: Dict[str, _RoomMembershipForUser], filters: SlidingSyncConfig.SlidingSyncList.Filters, to_token: StreamToken, - ) -> Dict[str, RoomsForUser]: + ) -> Dict[str, _RoomMembershipForUser]: """ Filter rooms based on the sync request. @@ -629,9 +750,9 @@ class SlidingSyncHandler: async def sort_rooms( self, - sync_room_map: Dict[str, RoomsForUser], + sync_room_map: Dict[str, _RoomMembershipForUser], to_token: StreamToken, - ) -> List[Tuple[str, RoomsForUser]]: + ) -> List[Tuple[str, _RoomMembershipForUser]]: """ Sort by `stream_ordering` of the last event that the user should see in the room. `stream_ordering` is unique so we get a stable sort. @@ -678,3 +799,219 @@ class SlidingSyncHandler: # We want descending order reverse=True, ) + + async def get_room_sync_data( + self, + user: UserID, + room_id: str, + room_sync_config: RoomSyncConfig, + rooms_membership_for_user_at_to_token: _RoomMembershipForUser, + from_token: Optional[StreamToken], + to_token: StreamToken, + ) -> SlidingSyncResult.RoomResult: + """ + Fetch room data for the sync response. + + We fetch data according to the token range (> `from_token` and <= `to_token`). + + Args: + user: User to fetch data for + room_id: The room ID to fetch data for + room_sync_config: Config for what data we should fetch for a room in the + sync response. + rooms_membership_for_user_at_to_token: Membership information for the user + in the room at the time of `to_token`. + from_token: The point in the stream to sync from. + to_token: The point in the stream to sync up to. + """ + + # Assemble the list of timeline events + # + # It would be nice to make the `rooms` response more uniform regardless of + # membership. Currently, we have to make all of these optional because + # `invite`/`knock` rooms only have `stripped_state`. See + # https://github.com/matrix-org/matrix-spec-proposals/pull/3575#discussion_r1653045932 + timeline_events: Optional[List[EventBase]] = None + bundled_aggregations: Optional[Dict[str, BundledAggregations]] = None + limited: Optional[bool] = None + prev_batch_token: Optional[StreamToken] = None + num_live: Optional[int] = None + if ( + room_sync_config.timeline_limit > 0 + # No timeline for invite/knock rooms (just `stripped_state`) + and rooms_membership_for_user_at_to_token.membership + not in (Membership.INVITE, Membership.KNOCK) + ): + limited = False + # We want to start off using the `to_token` (vs `from_token`) because we look + # backwards from the `to_token` up to the `timeline_limit` and we might not + # reach the `from_token` before we hit the limit. We will update the room stream + # position once we've fetched the events to point to the earliest event fetched. + prev_batch_token = to_token + + # We're going to paginate backwards from the `to_token` + from_bound = to_token.room_key + # People shouldn't see past their leave/ban event + if rooms_membership_for_user_at_to_token.membership in ( + Membership.LEAVE, + Membership.BAN, + ): + from_bound = ( + rooms_membership_for_user_at_to_token.event_pos.to_room_stream_token() + ) + + # Determine whether we should limit the timeline to the token range. + # + # We should return historical messages (before token range) in the + # following cases because we want clients to be able to show a basic + # screen of information: + # - Initial sync (because no `from_token` to limit us anyway) + # - When users `newly_joined` + # - TODO: For an incremental sync where we haven't sent it down this + # connection before + to_bound = ( + from_token.room_key + if from_token is not None + and not rooms_membership_for_user_at_to_token.newly_joined + else None + ) + + timeline_events, new_room_key = await self.store.paginate_room_events( + room_id=room_id, + from_key=from_bound, + to_key=to_bound, + direction=Direction.BACKWARDS, + # We add one so we can determine if there are enough events to saturate + # the limit or not (see `limited`) + limit=room_sync_config.timeline_limit + 1, + event_filter=None, + ) + + # We want to return the events in ascending order (the last event is the + # most recent). + timeline_events.reverse() + + # Determine our `limited` status based on the timeline. We do this before + # filtering the events so we can accurately determine if there is more to + # paginate even if we filter out some/all events. + if len(timeline_events) > room_sync_config.timeline_limit: + limited = True + # Get rid of that extra "+ 1" event because we only used it to determine + # if we hit the limit or not + timeline_events = timeline_events[-room_sync_config.timeline_limit :] + assert timeline_events[0].internal_metadata.stream_ordering + new_room_key = RoomStreamToken( + stream=timeline_events[0].internal_metadata.stream_ordering - 1 + ) + + # Make sure we don't expose any events that the client shouldn't see + timeline_events = await filter_events_for_client( + self.storage_controllers, + user.to_string(), + timeline_events, + is_peeking=rooms_membership_for_user_at_to_token.membership + != Membership.JOIN, + filter_send_to_client=True, + ) + # TODO: Filter out `EventTypes.CallInvite` in public rooms, + # see https://github.com/element-hq/synapse/issues/17359 + + # TODO: Handle timeline gaps (`get_timeline_gaps()`) + + # Determine how many "live" events we have (events within the given token range). + # + # This is mostly useful to determine whether a given @mention event should + # make a noise or not. Clients cannot rely solely on the absence of + # `initial: true` to determine live events because if a room not in the + # sliding window bumps into the window because of an @mention it will have + # `initial: true` yet contain a single live event (with potentially other + # old events in the timeline) + num_live = 0 + if from_token is not None: + for timeline_event in reversed(timeline_events): + # This fields should be present for all persisted events + assert timeline_event.internal_metadata.stream_ordering is not None + assert timeline_event.internal_metadata.instance_name is not None + + persisted_position = PersistedEventPosition( + instance_name=timeline_event.internal_metadata.instance_name, + stream=timeline_event.internal_metadata.stream_ordering, + ) + if persisted_position.persisted_after(from_token.room_key): + num_live += 1 + else: + # Since we're iterating over the timeline events in + # reverse-chronological order, we can break once we hit an event + # that's not live. In the future, we could potentially optimize + # this more with a binary search (bisect). + break + + # If the timeline is `limited=True`, the client does not have all events + # necessary to calculate aggregations themselves. + if limited: + bundled_aggregations = ( + await self.relations_handler.get_bundled_aggregations( + timeline_events, user.to_string() + ) + ) + + # Update the `prev_batch_token` to point to the position that allows us to + # keep paginating backwards from the oldest event we return in the timeline. + prev_batch_token = prev_batch_token.copy_and_replace( + StreamKeyType.ROOM, new_room_key + ) + + # Figure out any stripped state events for invite/knocks. This allows the + # potential joiner to identify the room. + stripped_state: List[JsonDict] = [] + if rooms_membership_for_user_at_to_token.membership in ( + Membership.INVITE, + Membership.KNOCK, + ): + invite_or_knock_event = await self.store.get_event( + rooms_membership_for_user_at_to_token.event_id + ) + + stripped_state = [] + if invite_or_knock_event.membership == Membership.INVITE: + stripped_state.extend( + invite_or_knock_event.unsigned.get("invite_room_state", []) + ) + elif invite_or_knock_event.membership == Membership.KNOCK: + stripped_state.extend( + invite_or_knock_event.unsigned.get("knock_room_state", []) + ) + + stripped_state.append(strip_event(invite_or_knock_event)) + + return SlidingSyncResult.RoomResult( + # TODO: Dummy value + name=None, + # TODO: Dummy value + avatar=None, + # TODO: Dummy value + heroes=None, + # TODO: Since we can't determine whether we've already sent a room down this + # Sliding Sync connection before (we plan to add this optimization in the + # future), we're always returning the requested room state instead of + # updates. + initial=True, + # TODO: Dummy value + required_state=[], + timeline_events=timeline_events, + bundled_aggregations=bundled_aggregations, + # TODO: Dummy value + is_dm=False, + stripped_state=stripped_state, + prev_batch=prev_batch_token, + limited=limited, + # TODO: Dummy values + joined_count=0, + invited_count=0, + # TODO: These are just dummy values. We could potentially just remove these + # since notifications can only really be done correctly on the client anyway + # (encrypted rooms). + notification_count=0, + highlight_count=0, + num_live=num_live, + ) diff --git a/synapse/rest/client/sync.py b/synapse/rest/client/sync.py index b5ab0d8534..1d955a2e89 100644 --- a/synapse/rest/client/sync.py +++ b/synapse/rest/client/sync.py @@ -761,7 +761,6 @@ class SlidingSyncRestServlet(RestServlet): "lists": { "foo-list": { "ranges": [ [0, 99] ], - "sort": [ "by_notification_level", "by_recency", "by_name" ], "required_state": [ ["m.room.join_rules", ""], ["m.room.history_visibility", ""], @@ -771,7 +770,6 @@ class SlidingSyncRestServlet(RestServlet): "filters": { "is_dm": true }, - "bump_event_types": [ "m.room.message", "m.room.encrypted" ], } }, // Room Subscriptions API @@ -779,10 +777,6 @@ class SlidingSyncRestServlet(RestServlet): "!sub1:bar": { "required_state": [ ["*","*"] ], "timeline_limit": 10, - "include_old_rooms": { - "timeline_limit": 1, - "required_state": [ ["m.room.tombstone", ""], ["m.room.create", ""] ], - } } }, // Extensions API @@ -791,7 +785,7 @@ class SlidingSyncRestServlet(RestServlet): Response JSON:: { - "next_pos": "s58_224_0_13_10_1_1_16_0_1", + "pos": "s58_224_0_13_10_1_1_16_0_1", "lists": { "foo-list": { "count": 1337, @@ -830,7 +824,8 @@ class SlidingSyncRestServlet(RestServlet): "joined_count": 41, "invited_count": 1, "notification_count": 1, - "highlight_count": 0 + "highlight_count": 0, + "num_live": 2" }, // rooms from list "!foo:bar": { @@ -855,7 +850,8 @@ class SlidingSyncRestServlet(RestServlet): "joined_count": 4, "invited_count": 0, "notification_count": 54, - "highlight_count": 3 + "highlight_count": 3, + "num_live": 1, }, // ... 99 more items }, @@ -871,10 +867,11 @@ class SlidingSyncRestServlet(RestServlet): super().__init__() self.auth = hs.get_auth() self.store = hs.get_datastores().main + self.clock = hs.get_clock() self.filtering = hs.get_filtering() self.sliding_sync_handler = hs.get_sliding_sync_handler() + self.event_serializer = hs.get_event_client_serializer() - # TODO: Update this to `on_GET` once we figure out how we want to handle params async def on_POST(self, request: SynapseRequest) -> Tuple[int, JsonDict]: requester = await self.auth.get_user_by_req(request, allow_guest=True) user = requester.user @@ -920,22 +917,25 @@ class SlidingSyncRestServlet(RestServlet): logger.info("Client has disconnected; not serializing response.") return 200, {} - response_content = await self.encode_response(sliding_sync_results) + response_content = await self.encode_response(requester, sliding_sync_results) return 200, response_content # TODO: Is there a better way to encode things? async def encode_response( self, + requester: Requester, sliding_sync_result: SlidingSyncResult, ) -> JsonDict: response: JsonDict = defaultdict(dict) - response["next_pos"] = await sliding_sync_result.next_pos.to_string(self.store) + response["pos"] = await sliding_sync_result.next_pos.to_string(self.store) serialized_lists = self.encode_lists(sliding_sync_result.lists) if serialized_lists: response["lists"] = serialized_lists - response["rooms"] = {} # TODO: sliding_sync_result.rooms + response["rooms"] = await self.encode_rooms( + requester, sliding_sync_result.rooms + ) response["extensions"] = {} # TODO: sliding_sync_result.extensions return response @@ -961,6 +961,92 @@ class SlidingSyncRestServlet(RestServlet): return serialized_lists + async def encode_rooms( + self, + requester: Requester, + rooms: Dict[str, SlidingSyncResult.RoomResult], + ) -> JsonDict: + time_now = self.clock.time_msec() + + serialize_options = SerializeEventConfig( + event_format=format_event_for_client_v2_without_room_id, + requester=requester, + ) + + serialized_rooms: Dict[str, JsonDict] = {} + for room_id, room_result in rooms.items(): + serialized_rooms[room_id] = { + "joined_count": room_result.joined_count, + "invited_count": room_result.invited_count, + "notification_count": room_result.notification_count, + "highlight_count": room_result.highlight_count, + } + + if room_result.name: + serialized_rooms[room_id]["name"] = room_result.name + + if room_result.avatar: + serialized_rooms[room_id]["avatar"] = room_result.avatar + + if room_result.heroes: + serialized_rooms[room_id]["heroes"] = room_result.heroes + + # We should only include the `initial` key if it's `True` to save bandwidth. + # The absense of this flag means `False`. + if room_result.initial: + serialized_rooms[room_id]["initial"] = room_result.initial + + # This will omitted for invite/knock rooms with `stripped_state` + if room_result.required_state is not None: + serialized_required_state = ( + await self.event_serializer.serialize_events( + room_result.required_state, + time_now, + config=serialize_options, + ) + ) + serialized_rooms[room_id]["required_state"] = serialized_required_state + + # This will omitted for invite/knock rooms with `stripped_state` + if room_result.timeline_events is not None: + serialized_timeline = await self.event_serializer.serialize_events( + room_result.timeline_events, + time_now, + config=serialize_options, + bundle_aggregations=room_result.bundled_aggregations, + ) + serialized_rooms[room_id]["timeline"] = serialized_timeline + + # This will omitted for invite/knock rooms with `stripped_state` + if room_result.limited is not None: + serialized_rooms[room_id]["limited"] = room_result.limited + + # This will omitted for invite/knock rooms with `stripped_state` + if room_result.prev_batch is not None: + serialized_rooms[room_id]["prev_batch"] = ( + await room_result.prev_batch.to_string(self.store) + ) + + # This will omitted for invite/knock rooms with `stripped_state` + if room_result.num_live is not None: + serialized_rooms[room_id]["num_live"] = room_result.num_live + + # Field should be absent on non-DM rooms + if room_result.is_dm: + serialized_rooms[room_id]["is_dm"] = room_result.is_dm + + # Stripped state only applies to invite/knock rooms + if room_result.stripped_state is not None: + # TODO: `knocked_state` but that isn't specced yet. + # + # TODO: Instead of adding `knocked_state`, it would be good to rename + # this to `stripped_state` so it can be shared between invite and knock + # rooms, see + # https://github.com/matrix-org/matrix-spec-proposals/pull/3575#discussion_r1117629919 + serialized_rooms[room_id]["invite_state"] = room_result.stripped_state + + return serialized_rooms + def register_servlets(hs: "HomeServer", http_server: HttpServer) -> None: SyncRestServlet(hs).register(http_server) diff --git a/synapse/storage/databases/main/events_worker.py b/synapse/storage/databases/main/events_worker.py index e264d36f02..f0f390cec4 100644 --- a/synapse/storage/databases/main/events_worker.py +++ b/synapse/storage/databases/main/events_worker.py @@ -55,7 +55,7 @@ from synapse.api.room_versions import ( ) from synapse.events import EventBase, make_event_from_dict from synapse.events.snapshot import EventContext -from synapse.events.utils import prune_event +from synapse.events.utils import prune_event, strip_event from synapse.logging.context import ( PreserveLoggingContext, current_context, @@ -1025,15 +1025,7 @@ class EventsWorkerStore(SQLBaseStore): state_to_include = await self.get_events(selected_state_ids.values()) - return [ - { - "type": e.type, - "state_key": e.state_key, - "content": e.content, - "sender": e.sender, - } - for e in state_to_include.values() - ] + return [strip_event(e) for e in state_to_include.values()] def _maybe_start_fetch_thread(self) -> None: """Starts an event fetch thread if we are not yet at the maximum number.""" diff --git a/synapse/storage/databases/main/stream.py b/synapse/storage/databases/main/stream.py index ff0d723684..19dba00a0f 100644 --- a/synapse/storage/databases/main/stream.py +++ b/synapse/storage/databases/main/stream.py @@ -44,6 +44,7 @@ what sort order was used: import logging from typing import ( TYPE_CHECKING, + AbstractSet, Any, Collection, Dict, @@ -62,7 +63,7 @@ from typing_extensions import Literal from twisted.internet import defer -from synapse.api.constants import Direction +from synapse.api.constants import Direction, EventTypes, Membership from synapse.api.filtering import Filter from synapse.events import EventBase from synapse.logging.context import make_deferred_yieldable, run_in_background @@ -111,6 +112,30 @@ class _EventsAround: end: RoomStreamToken +@attr.s(slots=True, frozen=True, auto_attribs=True) +class CurrentStateDeltaMembership: + """ + Attributes: + event_id: The "current" membership event ID in this room. + event_pos: The position of the "current" membership event in the event stream. + prev_event_id: The previous membership event in this room that was replaced by + the "current" one. May be `None` if there was no previous membership event. + room_id: The room ID of the membership event. + membership: The membership state of the user in the room + sender: The person who sent the membership event + state_reset: Whether the membership in the room was changed without a + corresponding event (state reset). + """ + + event_id: Optional[str] + event_pos: PersistedEventPosition + prev_event_id: Optional[str] + room_id: str + membership: str + sender: Optional[str] + state_reset: bool + + def generate_pagination_where_clause( direction: Direction, column_names: Tuple[str, str], @@ -390,6 +415,43 @@ def _filter_results( return True +def _filter_results_by_stream( + lower_token: Optional[RoomStreamToken], + upper_token: Optional[RoomStreamToken], + instance_name: str, + stream_ordering: int, +) -> bool: + """ + This function only works with "live" tokens with `stream_ordering` only. See + `_filter_results(...)` if you want to work with all tokens. + + Returns True if the event persisted by the given instance at the given + stream_ordering falls between the two tokens (taking a None + token to mean unbounded). + + Used to filter results from fetching events in the DB against the given + tokens. This is necessary to handle the case where the tokens include + position maps, which we handle by fetching more than necessary from the DB + and then filtering (rather than attempting to construct a complicated SQL + query). + """ + if lower_token: + assert lower_token.topological is None + + # If these are live tokens we compare the stream ordering against the + # writers stream position. + if stream_ordering <= lower_token.get_stream_pos_for_instance(instance_name): + return False + + if upper_token: + assert upper_token.topological is None + + if upper_token.get_stream_pos_for_instance(instance_name) < stream_ordering: + return False + + return True + + def filter_to_clause(event_filter: Optional[Filter]) -> Tuple[str, List[str]]: # NB: This may create SQL clauses that don't optimise well (and we don't # have indices on all possible clauses). E.g. it may create @@ -731,6 +793,189 @@ class StreamWorkerStore(EventsWorkerStore, SQLBaseStore): return ret, key + async def get_current_state_delta_membership_changes_for_user( + self, + user_id: str, + from_key: RoomStreamToken, + to_key: RoomStreamToken, + excluded_room_ids: Optional[List[str]] = None, + ) -> List[CurrentStateDeltaMembership]: + """ + Fetch membership events (and the previous event that was replaced by that one) + for a given user. + + Note: This function only works with "live" tokens with `stream_ordering` only. + + We're looking for membership changes in the token range (> `from_key` and <= + `to_key`). + + Please be mindful to only use this with `from_key` and `to_key` tokens that are + recent enough to be after when the first local user joined the room. Otherwise, + the results may be incomplete or too greedy. For example, if you use a token + range before the first local user joined the room, you will see 0 events since + `current_state_delta_stream` tracks what the server thinks is the current state + of the room as time goes. It does not track how state progresses from the + beginning of the room. So for example, when you remotely join a room, the first + rows will just be the state when you joined and progress from there. + + You can probably reasonably use this with `/sync` because the `to_key` passed in + will be the "current" now token and the range will cover when the user joined + the room. + + Args: + user_id: The user ID to fetch membership events for. + from_key: The point in the stream to sync from (fetching events > this point). + to_key: The token to fetch rooms up to (fetching events <= this point). + excluded_room_ids: Optional list of room IDs to exclude from the results. + + Returns: + All membership changes to the current state in the token range. Events are + sorted by `stream_ordering` ascending. + """ + # Start by ruling out cases where a DB query is not necessary. + if from_key == to_key: + return [] + + if from_key: + has_changed = self._membership_stream_cache.has_entity_changed( + user_id, int(from_key.stream) + ) + if not has_changed: + return [] + + def f(txn: LoggingTransaction) -> List[CurrentStateDeltaMembership]: + # To handle tokens with a non-empty instance_map we fetch more + # results than necessary and then filter down + min_from_id = from_key.stream + max_to_id = to_key.get_max_stream_pos() + + args: List[Any] = [ + EventTypes.Member, + user_id, + user_id, + min_from_id, + max_to_id, + EventTypes.Member, + user_id, + ] + + # TODO: It would be good to assert that the `from_token`/`to_token` is >= + # the first row in `current_state_delta_stream` for the rooms we're + # interested in. Otherwise, we will end up with empty results and not know + # it. + + # We have to look-up events by `stream_ordering` because + # `current_state_delta_stream.event_id` can be `null` if the server is no + # longer in the room or a state reset happened and it was unset. + # `stream_ordering` is unique across the Synapse instance so this should + # work fine. + # + # We `COALESCE` the `stream_ordering` because we prefer the source of truth + # from the `events` table. This gives slightly more accurate results when + # available since `current_state_delta_stream` only tracks that the current + # state is at this stream position (not what stream position the state event + # was added) and uses the *minimum* stream position for batches of events. + # + # The extra `LEFT JOIN` by stream position are only needed to tell a state + # reset from the server leaving the room. Both cases have `event_id = null` + # but if we can find a corresponding event at that stream position, then we + # know it was just the server leaving the room. + sql = """ + SELECT + COALESCE(e.event_id, e_by_stream.event_id) AS event_id, + s.prev_event_id, + s.room_id, + s.instance_name, + COALESCE(e.stream_ordering, e_by_stream.stream_ordering, s.stream_id) AS stream_ordering, + COALESCE(m.membership, m_by_stream.membership) AS membership, + COALESCE(e.sender, e_by_stream.sender) AS sender, + m_prev.membership AS prev_membership + FROM current_state_delta_stream AS s + LEFT JOIN events AS e ON e.event_id = s.event_id + LEFT JOIN room_memberships AS m ON m.event_id = s.event_id + LEFT JOIN room_memberships AS m_prev ON s.prev_event_id = m_prev.event_id + LEFT JOIN events AS e_by_stream ON e_by_stream.stream_ordering = s.stream_id + AND e_by_stream.type = ? + AND e_by_stream.state_key = ? + LEFT JOIN room_memberships AS m_by_stream ON m_by_stream.event_stream_ordering = s.stream_id + AND m_by_stream.user_id = ? + WHERE s.stream_id > ? AND s.stream_id <= ? + AND s.type = ? + AND s.state_key = ? + ORDER BY s.stream_id ASC + """ + + txn.execute(sql, args) + + membership_changes: List[CurrentStateDeltaMembership] = [] + for ( + event_id, + prev_event_id, + room_id, + instance_name, + stream_ordering, + membership, + sender, + prev_membership, + ) in txn: + assert room_id is not None + assert instance_name is not None + assert stream_ordering is not None + + if _filter_results_by_stream( + from_key, + to_key, + instance_name, + stream_ordering, + ): + # When the server leaves a room, it will insert new rows with + # `event_id = null` for all current state. This means we might + # already have a row for the leave event and then another for the + # same leave where the `event_id=null` but the `prev_event_id` is + # pointing back at the earlier leave event. We don't want to report + # the leave, if we already have a leave event. + if event_id is None and prev_membership == Membership.LEAVE: + continue + + # We can detect a state reset if there was a membership change + # without a corresponding event. + state_reset = False + if event_id is None and membership != prev_membership: + state_reset = True + + membership_change = CurrentStateDeltaMembership( + event_id=event_id, + event_pos=PersistedEventPosition( + instance_name=instance_name, + stream=stream_ordering, + ), + prev_event_id=prev_event_id, + room_id=room_id, + membership=( + membership if membership is not None else Membership.LEAVE + ), + sender=sender, + state_reset=state_reset, + ) + + membership_changes.append(membership_change) + + return membership_changes + + membership_changes = await self.db_pool.runInteraction( + "get_current_state_delta_membership_changes_for_user", f + ) + + room_ids_to_exclude: AbstractSet[str] = set() + if excluded_room_ids is not None: + room_ids_to_exclude = set(excluded_room_ids) + + return [ + membership_change + for membership_change in membership_changes + if membership_change.room_id not in room_ids_to_exclude + ] + @cancellable async def get_membership_changes_for_user( self, @@ -766,10 +1011,11 @@ class StreamWorkerStore(EventsWorkerStore, SQLBaseStore): ignore_room_clause = "" if excluded_rooms is not None and len(excluded_rooms) > 0: - ignore_room_clause = "AND e.room_id NOT IN (%s)" % ",".join( - "?" for _ in excluded_rooms + ignore_room_clause, ignore_room_args = make_in_list_sql_clause( + txn.database_engine, "e.room_id", excluded_rooms, negative=True ) - args = args + excluded_rooms + ignore_room_clause = f"AND {ignore_room_clause}" + args += ignore_room_args sql = """ SELECT m.event_id, instance_name, topological_ordering, stream_ordering @@ -1551,6 +1797,9 @@ class StreamWorkerStore(EventsWorkerStore, SQLBaseStore): ) -> Tuple[List[EventBase], RoomStreamToken]: """Returns list of events before or after a given token. + When Direction.FORWARDS: from_key < x <= to_key + When Direction.BACKWARDS: from_key >= x > to_key + Args: room_id from_key: The token used to stream from @@ -1567,6 +1816,23 @@ class StreamWorkerStore(EventsWorkerStore, SQLBaseStore): and `to_key`). """ + # We can bail early if we're looking forwards, and our `to_key` is already + # before our `from_key`. + if ( + direction == Direction.FORWARDS + and to_key is not None + and to_key.is_before_or_eq(from_key) + ): + return [], from_key + # Or vice-versa, if we're looking backwards and our `from_key` is already before + # our `to_key`. + elif ( + direction == Direction.BACKWARDS + and to_key is not None + and from_key.is_before_or_eq(to_key) + ): + return [], from_key + rows, token = await self.db_pool.runInteraction( "paginate_room_events", self._paginate_room_events_txn, diff --git a/synapse/storage/schema/main/delta/42/current_state_delta.sql b/synapse/storage/schema/main/delta/42/current_state_delta.sql index 876b61e6a5..3d2fd69480 100644 --- a/synapse/storage/schema/main/delta/42/current_state_delta.sql +++ b/synapse/storage/schema/main/delta/42/current_state_delta.sql @@ -32,7 +32,10 @@ * limitations under the License. */ - +-- Tracks what the server thinks is the current state of the room as time goes. It does +-- not track how state progresses from the beginning of the room. So for example, when +-- you remotely join a room, the first rows will just be the state when you joined and +-- progress from there. CREATE TABLE current_state_delta_stream ( stream_id BIGINT NOT NULL, room_id TEXT NOT NULL, diff --git a/synapse/types/__init__.py b/synapse/types/__init__.py index 151658df53..b52236d602 100644 --- a/synapse/types/__init__.py +++ b/synapse/types/__init__.py @@ -1078,6 +1078,9 @@ class PersistedPosition: stream: int def persisted_after(self, token: AbstractMultiWriterStreamToken) -> bool: + """ + Checks whether this position happened after the token + """ return token.get_stream_pos_for_instance(self.instance_name) < self.stream diff --git a/synapse/types/handlers/__init__.py b/synapse/types/handlers/__init__.py index 1d65551d5b..3cd3c8fb0f 100644 --- a/synapse/types/handlers/__init__.py +++ b/synapse/types/handlers/__init__.py @@ -31,9 +31,12 @@ else: from pydantic import Extra from synapse.events import EventBase -from synapse.types import JsonMapping, StreamToken, UserID +from synapse.types import JsonDict, JsonMapping, StreamToken, UserID from synapse.types.rest.client import SlidingSyncBody +if TYPE_CHECKING: + from synapse.handlers.relations import BundledAggregations + class ShutdownRoomParams(TypedDict): """ @@ -159,11 +162,16 @@ class SlidingSyncResult: entirely and NOT send "initial":false as this is wasteful on bandwidth. The absence of this flag means 'false'. required_state: The current state of the room - timeline: Latest events in the room. The last event is the most recent + timeline: Latest events in the room. The last event is the most recent. + bundled_aggregations: A mapping of event ID to the bundled aggregations for + the timeline events above. This allows clients to show accurate reaction + counts (or edits, threads), even if some of the reaction events were skipped + over in a gappy sync. is_dm: Flag to specify whether the room is a direct-message room (most likely between two people). - invite_state: Stripped state events. Same as `rooms.invite.$room_id.invite_state` - in sync v2, absent on joined/left rooms + stripped_state: Stripped state events (for rooms where the usre is + invited/knocked). Same as `rooms.invite.$room_id.invite_state` in sync v2, + absent on joined/left rooms prev_batch: A token that can be passed as a start parameter to the `/rooms//messages` API to retrieve earlier messages. limited: True if their are more events than fit between the given position and now. @@ -185,21 +193,28 @@ class SlidingSyncResult: (with potentially other old events in the timeline). """ - name: str + name: Optional[str] avatar: Optional[str] heroes: Optional[List[EventBase]] initial: bool - required_state: List[EventBase] - timeline: List[EventBase] + # Only optional because it won't be included for invite/knock rooms with `stripped_state` + required_state: Optional[List[EventBase]] + # Only optional because it won't be included for invite/knock rooms with `stripped_state` + timeline_events: Optional[List[EventBase]] + bundled_aggregations: Optional[Dict[str, "BundledAggregations"]] is_dm: bool - invite_state: List[EventBase] - prev_batch: StreamToken - limited: bool + # Optional because it's only relevant to invite/knock rooms + stripped_state: Optional[List[JsonDict]] + # Only optional because it won't be included for invite/knock rooms with `stripped_state` + prev_batch: Optional[StreamToken] + # Only optional because it won't be included for invite/knock rooms with `stripped_state` + limited: Optional[bool] joined_count: int invited_count: int notification_count: int highlight_count: int - num_live: int + # Only optional because it won't be included for invite/knock rooms with `stripped_state` + num_live: Optional[int] @attr.s(slots=True, frozen=True, auto_attribs=True) class SlidingWindowList: diff --git a/synapse/types/rest/client/__init__.py b/synapse/types/rest/client/__init__.py index e2c79c4106..5d453769b5 100644 --- a/synapse/types/rest/client/__init__.py +++ b/synapse/types/rest/client/__init__.py @@ -152,22 +152,14 @@ class SlidingSyncBody(RequestBodyModel): anyway. timeline_limit: The maximum number of timeline events to return per response. (Max 1000 messages) - include_old_rooms: Determines if `predecessor` rooms are included in the - `rooms` response. The user MUST be joined to old rooms for them to show up - in the response. """ - class IncludeOldRooms(RequestBodyModel): - timeline_limit: StrictInt - required_state: List[Tuple[StrictStr, StrictStr]] - required_state: List[Tuple[StrictStr, StrictStr]] # mypy workaround via https://github.com/pydantic/pydantic/issues/156#issuecomment-1130883884 if TYPE_CHECKING: timeline_limit: int else: timeline_limit: conint(le=1000, strict=True) # type: ignore[valid-type] - include_old_rooms: Optional[IncludeOldRooms] = None class SlidingSyncList(CommonRoomParameters): """ @@ -208,9 +200,6 @@ class SlidingSyncBody(RequestBodyModel): } timeline_limit: The maximum number of timeline events to return per response. - include_old_rooms: Determines if `predecessor` rooms are included in the - `rooms` response. The user MUST be joined to old rooms for them to show up - in the response. include_heroes: Return a stripped variant of membership events (containing `user_id` and optionally `avatar_url` and `displayname`) for the users used to calculate the room name. diff --git a/tests/handlers/test_sliding_sync.py b/tests/handlers/test_sliding_sync.py index 8dd4521b18..7339cb460e 100644 --- a/tests/handlers/test_sliding_sync.py +++ b/tests/handlers/test_sliding_sync.py @@ -63,6 +63,7 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): self.sliding_sync_handler = self.hs.get_sliding_sync_handler() self.store = self.hs.get_datastores().main self.event_sources = hs.get_event_sources() + self.storage_controllers = hs.get_storage_controllers() def test_no_rooms(self) -> None: """ @@ -90,10 +91,13 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): """ user1_id = self.register_user("user1", "pass") user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") before_room_token = self.event_sources.get_current_token() - room_id = self.helper.create_room_as(user1_id, tok=user1_tok, is_public=True) + room_id = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response = self.helper.join(room_id, user1_id, tok=user1_tok) after_room_token = self.event_sources.get_current_token() @@ -106,6 +110,15 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): ) self.assertEqual(room_id_results.keys(), {room_id}) + # It should be pointing to the join event (latest membership event in the + # from/to range) + self.assertEqual( + room_id_results[room_id].event_id, + join_response["event_id"], + ) + # We should be considered `newly_joined` because we joined during the token + # range + self.assertEqual(room_id_results[room_id].newly_joined, True) def test_get_already_joined_room(self) -> None: """ @@ -113,8 +126,11 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): """ user1_id = self.register_user("user1", "pass") user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") - room_id = self.helper.create_room_as(user1_id, tok=user1_tok, is_public=True) + room_id = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response = self.helper.join(room_id, user1_id, tok=user1_tok) after_room_token = self.event_sources.get_current_token() @@ -127,6 +143,14 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): ) self.assertEqual(room_id_results.keys(), {room_id}) + # It should be pointing to the join event (latest membership event in the + # from/to range) + self.assertEqual( + room_id_results[room_id].event_id, + join_response["event_id"], + ) + # We should *NOT* be `newly_joined` because we joined before the token range + self.assertEqual(room_id_results[room_id].newly_joined, False) def test_get_invited_banned_knocked_room(self) -> None: """ @@ -142,14 +166,18 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Setup the invited room (user2 invites user1 to the room) invited_room_id = self.helper.create_room_as(user2_id, tok=user2_tok) - self.helper.invite(invited_room_id, targ=user1_id, tok=user2_tok) + invite_response = self.helper.invite( + invited_room_id, targ=user1_id, tok=user2_tok + ) # Setup the ban room (user2 bans user1 from the room) ban_room_id = self.helper.create_room_as( user2_id, tok=user2_tok, is_public=True ) self.helper.join(ban_room_id, user1_id, tok=user1_tok) - self.helper.ban(ban_room_id, src=user2_id, targ=user1_id, tok=user2_tok) + ban_response = self.helper.ban( + ban_room_id, src=user2_id, targ=user1_id, tok=user2_tok + ) # Setup the knock room (user1 knocks on the room) knock_room_id = self.helper.create_room_as( @@ -162,13 +190,19 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): tok=user2_tok, ) # User1 knocks on the room - channel = self.make_request( + knock_channel = self.make_request( "POST", "/_matrix/client/r0/knock/%s" % (knock_room_id,), b"{}", user1_tok, ) - self.assertEqual(channel.code, 200, channel.result) + self.assertEqual(knock_channel.code, 200, knock_channel.result) + knock_room_membership_state_event = self.get_success( + self.storage_controllers.state.get_current_state_event( + knock_room_id, EventTypes.Member, user1_id + ) + ) + assert knock_room_membership_state_event is not None after_room_token = self.event_sources.get_current_token() @@ -189,6 +223,25 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): knock_room_id, }, ) + # It should be pointing to the the respective membership event (latest + # membership event in the from/to range) + self.assertEqual( + room_id_results[invited_room_id].event_id, + invite_response["event_id"], + ) + self.assertEqual( + room_id_results[ban_room_id].event_id, + ban_response["event_id"], + ) + self.assertEqual( + room_id_results[knock_room_id].event_id, + knock_room_membership_state_event.event_id, + ) + # We should *NOT* be `newly_joined` because we were not joined at the the time + # of the `to_token`. + self.assertEqual(room_id_results[invited_room_id].newly_joined, False) + self.assertEqual(room_id_results[ban_room_id].newly_joined, False) + self.assertEqual(room_id_results[knock_room_id].newly_joined, False) def test_get_kicked_room(self) -> None: """ @@ -206,7 +259,7 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): ) self.helper.join(kick_room_id, user1_id, tok=user1_tok) # Kick user1 from the room - self.helper.change_membership( + kick_response = self.helper.change_membership( room=kick_room_id, src=user2_id, targ=user1_id, @@ -229,6 +282,14 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # The kicked room should show up self.assertEqual(room_id_results.keys(), {kick_room_id}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[kick_room_id].event_id, + kick_response["event_id"], + ) + # We should *NOT* be `newly_joined` because we were not joined at the the time + # of the `to_token`. + self.assertEqual(room_id_results[kick_room_id].newly_joined, False) def test_forgotten_rooms(self) -> None: """ @@ -329,7 +390,7 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Leave during the from_token/to_token range (newly_left) room_id2 = self.helper.create_room_as(user1_id, tok=user1_tok) - self.helper.leave(room_id2, user1_id, tok=user1_tok) + leave_response = self.helper.leave(room_id2, user1_id, tok=user1_tok) after_room2_token = self.event_sources.get_current_token() @@ -343,6 +404,13 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Only the newly_left room should show up self.assertEqual(room_id_results.keys(), {room_id2}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id2].event_id, + leave_response["event_id"], + ) + # We should *NOT* be `newly_joined` because we are instead `newly_left` + self.assertEqual(room_id_results[room_id2].newly_joined, False) def test_no_joins_after_to_token(self) -> None: """ @@ -351,16 +419,19 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): """ user1_id = self.register_user("user1", "pass") user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") before_room1_token = self.event_sources.get_current_token() - room_id1 = self.helper.create_room_as(user1_id, tok=user1_tok) + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) after_room1_token = self.event_sources.get_current_token() - # Room join after after our `to_token` shouldn't show up - room_id2 = self.helper.create_room_as(user1_id, tok=user1_tok) - _ = room_id2 + # Room join after our `to_token` shouldn't show up + room_id2 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.join(room_id2, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -371,6 +442,13 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): ) self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + join_response1["event_id"], + ) + # We should be `newly_joined` because we joined during the token range + self.assertEqual(room_id_results[room_id1].newly_joined, True) def test_join_during_range_and_left_room_after_to_token(self) -> None: """ @@ -380,15 +458,18 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): """ user1_id = self.register_user("user1", "pass") user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") before_room1_token = self.event_sources.get_current_token() - room_id1 = self.helper.create_room_as(user1_id, tok=user1_tok) + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) after_room1_token = self.event_sources.get_current_token() # Leave the room after we already have our tokens - self.helper.leave(room_id1, user1_id, tok=user1_tok) + leave_response = self.helper.leave(room_id1, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -401,6 +482,20 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # We should still see the room because we were joined during the # from_token/to_token time period. self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + join_response["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response": join_response["event_id"], + "leave_response": leave_response["event_id"], + } + ), + ) + # We should be `newly_joined` because we joined during the token range + self.assertEqual(room_id_results[room_id1].newly_joined, True) def test_join_before_range_and_left_room_after_to_token(self) -> None: """ @@ -410,13 +505,16 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): """ user1_id = self.register_user("user1", "pass") user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") - room_id1 = self.helper.create_room_as(user1_id, tok=user1_tok) + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) after_room1_token = self.event_sources.get_current_token() # Leave the room after we already have our tokens - self.helper.leave(room_id1, user1_id, tok=user1_tok) + leave_response = self.helper.leave(room_id1, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -428,6 +526,20 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # We should still see the room because we were joined before the `from_token` self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + join_response["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response": join_response["event_id"], + "leave_response": leave_response["event_id"], + } + ), + ) + # We should *NOT* be `newly_joined` because we joined before the token range + self.assertEqual(room_id_results[room_id1].newly_joined, False) def test_kicked_before_range_and_left_after_to_token(self) -> None: """ @@ -444,9 +556,9 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): kick_room_id = self.helper.create_room_as( user2_id, tok=user2_tok, is_public=True ) - self.helper.join(kick_room_id, user1_id, tok=user1_tok) + join_response1 = self.helper.join(kick_room_id, user1_id, tok=user1_tok) # Kick user1 from the room - self.helper.change_membership( + kick_response = self.helper.change_membership( room=kick_room_id, src=user2_id, targ=user1_id, @@ -463,8 +575,8 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # # We have to join before we can leave (leave -> leave isn't a valid transition # or at least it doesn't work in Synapse, 403 forbidden) - self.helper.join(kick_room_id, user1_id, tok=user1_tok) - self.helper.leave(kick_room_id, user1_id, tok=user1_tok) + join_response2 = self.helper.join(kick_room_id, user1_id, tok=user1_tok) + leave_response = self.helper.leave(kick_room_id, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -476,6 +588,22 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # We shouldn't see the room because it was forgotten self.assertEqual(room_id_results.keys(), {kick_room_id}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[kick_room_id].event_id, + kick_response["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response1": join_response1["event_id"], + "kick_response": kick_response["event_id"], + "join_response2": join_response2["event_id"], + "leave_response": leave_response["event_id"], + } + ), + ) + # We should *NOT* be `newly_joined` because we were kicked + self.assertEqual(room_id_results[kick_room_id].newly_joined, False) def test_newly_left_during_range_and_join_leave_after_to_token(self) -> None: """ @@ -494,14 +622,14 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # leave and can still re-join. room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) # Join and leave the room during the from/to range - self.helper.join(room_id1, user1_id, tok=user1_tok) - self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + leave_response1 = self.helper.leave(room_id1, user1_id, tok=user1_tok) after_room1_token = self.event_sources.get_current_token() # Join and leave the room after we already have our tokens - self.helper.join(room_id1, user1_id, tok=user1_tok) - self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_response2 = self.helper.join(room_id1, user1_id, tok=user1_tok) + leave_response2 = self.helper.leave(room_id1, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -513,6 +641,22 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Room should still show up because it's newly_left during the from/to range self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + leave_response1["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response1": join_response1["event_id"], + "leave_response1": leave_response1["event_id"], + "join_response2": join_response2["event_id"], + "leave_response2": leave_response2["event_id"], + } + ), + ) + # We should *NOT* be `newly_joined` because we left during the token range + self.assertEqual(room_id_results[room_id1].newly_joined, False) def test_newly_left_during_range_and_join_after_to_token(self) -> None: """ @@ -531,13 +675,13 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # leave and can still re-join. room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) # Join and leave the room during the from/to range - self.helper.join(room_id1, user1_id, tok=user1_tok) - self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + leave_response1 = self.helper.leave(room_id1, user1_id, tok=user1_tok) after_room1_token = self.event_sources.get_current_token() # Join the room after we already have our tokens - self.helper.join(room_id1, user1_id, tok=user1_tok) + join_response2 = self.helper.join(room_id1, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -549,11 +693,26 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Room should still show up because it's newly_left during the from/to range self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + leave_response1["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response1": join_response1["event_id"], + "leave_response1": leave_response1["event_id"], + "join_response2": join_response2["event_id"], + } + ), + ) + # We should *NOT* be `newly_joined` because we left during the token range + self.assertEqual(room_id_results[room_id1].newly_joined, False) def test_no_from_token(self) -> None: """ Test that if we don't provide a `from_token`, we get all the rooms that we we're - joined to up to the `to_token`. + joined up to the `to_token`. Providing `from_token` only really has the effect that it adds `newly_left` rooms to the response. @@ -569,7 +728,7 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): room_id2 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) # Join room1 - self.helper.join(room_id1, user1_id, tok=user1_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) # Join and leave the room2 before the `to_token` self.helper.join(room_id2, user1_id, tok=user1_tok) @@ -590,6 +749,14 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Only rooms we were joined to before the `to_token` should show up self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + join_response1["event_id"], + ) + # We should *NOT* be `newly_joined` because there is no `from_token` to + # define a "live" range to compare against + self.assertEqual(room_id_results[room_id1].newly_joined, False) def test_from_token_ahead_of_to_token(self) -> None: """ @@ -609,7 +776,7 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): room_id4 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) # Join room1 before `before_room_token` - self.helper.join(room_id1, user1_id, tok=user1_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) # Join and leave the room2 before `before_room_token` self.helper.join(room_id2, user1_id, tok=user1_tok) @@ -651,6 +818,13 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # There won't be any newly_left rooms because the `from_token` is ahead of the # `to_token` and that range will give no membership changes to check. self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + join_response1["event_id"], + ) + # We should *NOT* be `newly_joined` because we joined `room1` before either of the tokens + self.assertEqual(room_id_results[room_id1].newly_joined, False) def test_leave_before_range_and_join_leave_after_to_token(self) -> None: """ @@ -741,16 +915,16 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # leave and can still re-join. room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) # Join, leave, join back to the room before the from/to range - self.helper.join(room_id1, user1_id, tok=user1_tok) - self.helper.leave(room_id1, user1_id, tok=user1_tok) - self.helper.join(room_id1, user1_id, tok=user1_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + leave_response1 = self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_response2 = self.helper.join(room_id1, user1_id, tok=user1_tok) after_room1_token = self.event_sources.get_current_token() # Leave and Join the room multiple times after we already have our tokens - self.helper.leave(room_id1, user1_id, tok=user1_tok) - self.helper.join(room_id1, user1_id, tok=user1_tok) - self.helper.leave(room_id1, user1_id, tok=user1_tok) + leave_response2 = self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_response3 = self.helper.join(room_id1, user1_id, tok=user1_tok) + leave_response3 = self.helper.leave(room_id1, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -762,6 +936,24 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Room should show up because it was newly_left and joined during the from/to range self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + join_response2["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response1": join_response1["event_id"], + "leave_response1": leave_response1["event_id"], + "join_response2": join_response2["event_id"], + "leave_response2": leave_response2["event_id"], + "join_response3": join_response3["event_id"], + "leave_response3": leave_response3["event_id"], + } + ), + ) + # We should be `newly_joined` because we joined during the token range + self.assertEqual(room_id_results[room_id1].newly_joined, True) def test_join_leave_multiple_times_before_range_and_after_to_token( self, @@ -781,16 +973,16 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # leave and can still re-join. room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) # Join, leave, join back to the room before the from/to range - self.helper.join(room_id1, user1_id, tok=user1_tok) - self.helper.leave(room_id1, user1_id, tok=user1_tok) - self.helper.join(room_id1, user1_id, tok=user1_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + leave_response1 = self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_response2 = self.helper.join(room_id1, user1_id, tok=user1_tok) after_room1_token = self.event_sources.get_current_token() # Leave and Join the room multiple times after we already have our tokens - self.helper.leave(room_id1, user1_id, tok=user1_tok) - self.helper.join(room_id1, user1_id, tok=user1_tok) - self.helper.leave(room_id1, user1_id, tok=user1_tok) + leave_response2 = self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_response3 = self.helper.join(room_id1, user1_id, tok=user1_tok) + leave_response3 = self.helper.leave(room_id1, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -802,6 +994,24 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Room should show up because we were joined before the from/to range self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + join_response2["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response1": join_response1["event_id"], + "leave_response1": leave_response1["event_id"], + "join_response2": join_response2["event_id"], + "leave_response2": leave_response2["event_id"], + "join_response3": join_response3["event_id"], + "leave_response3": leave_response3["event_id"], + } + ), + ) + # We should *NOT* be `newly_joined` because we joined before the token range + self.assertEqual(room_id_results[room_id1].newly_joined, False) def test_invite_before_range_and_join_leave_after_to_token( self, @@ -821,13 +1031,15 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) # Invited to the room before the token - self.helper.invite(room_id1, src=user2_id, targ=user1_id, tok=user2_tok) + invite_response = self.helper.invite( + room_id1, src=user2_id, targ=user1_id, tok=user2_tok + ) after_room1_token = self.event_sources.get_current_token() # Join and leave the room after we already have our tokens - self.helper.join(room_id1, user1_id, tok=user1_tok) - self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_respsonse = self.helper.join(room_id1, user1_id, tok=user1_tok) + leave_response = self.helper.leave(room_id1, user1_id, tok=user1_tok) room_id_results = self.get_success( self.sliding_sync_handler.get_sync_room_ids_for_user( @@ -839,6 +1051,474 @@ class GetSyncRoomIdsForUserTestCase(HomeserverTestCase): # Room should show up because we were invited before the from/to range self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + invite_response["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "invite_response": invite_response["event_id"], + "join_respsonse": join_respsonse["event_id"], + "leave_response": leave_response["event_id"], + } + ), + ) + # We should *NOT* be `newly_joined` because we were only invited before the + # token range + self.assertEqual(room_id_results[room_id1].newly_joined, False) + + def test_join_and_display_name_changes_in_token_range( + self, + ) -> None: + """ + Test that we point to the correct membership event within the from/to range even + if there are multiple `join` membership events in a row indicating + `displayname`/`avatar_url` updates. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + # We create the room with user2 so the room isn't left with no members when we + # leave and can still re-join. + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) + join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) + # Update the displayname during the token range + displayname_change_during_token_range_response = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname during token range", + }, + tok=user1_tok, + ) + + after_room1_token = self.event_sources.get_current_token() + + # Update the displayname after the token range + displayname_change_after_token_range_response = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname after token range", + }, + tok=user1_tok, + ) + + room_id_results = self.get_success( + self.sliding_sync_handler.get_sync_room_ids_for_user( + UserID.from_string(user1_id), + from_token=before_room1_token, + to_token=after_room1_token, + ) + ) + + # Room should show up because we were joined during the from/to range + self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + displayname_change_during_token_range_response["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response": join_response["event_id"], + "displayname_change_during_token_range_response": displayname_change_during_token_range_response[ + "event_id" + ], + "displayname_change_after_token_range_response": displayname_change_after_token_range_response[ + "event_id" + ], + } + ), + ) + # We should be `newly_joined` because we joined during the token range + self.assertEqual(room_id_results[room_id1].newly_joined, True) + + def test_display_name_changes_in_token_range( + self, + ) -> None: + """ + Test that we point to the correct membership event within the from/to range even + if there is `displayname`/`avatar_url` updates. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + # We create the room with user2 so the room isn't left with no members when we + # leave and can still re-join. + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) + join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) + + after_room1_token = self.event_sources.get_current_token() + + # Update the displayname during the token range + displayname_change_during_token_range_response = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname during token range", + }, + tok=user1_tok, + ) + + after_change1_token = self.event_sources.get_current_token() + + room_id_results = self.get_success( + self.sliding_sync_handler.get_sync_room_ids_for_user( + UserID.from_string(user1_id), + from_token=after_room1_token, + to_token=after_change1_token, + ) + ) + + # Room should show up because we were joined during the from/to range + self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + displayname_change_during_token_range_response["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response": join_response["event_id"], + "displayname_change_during_token_range_response": displayname_change_during_token_range_response[ + "event_id" + ], + } + ), + ) + # We should *NOT* be `newly_joined` because we joined before the token range + self.assertEqual(room_id_results[room_id1].newly_joined, False) + + def test_display_name_changes_before_and_after_token_range( + self, + ) -> None: + """ + Test that we point to the correct membership event even though there are no + membership events in the from/range but there are `displayname`/`avatar_url` + changes before/after the token range. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + # We create the room with user2 so the room isn't left with no members when we + # leave and can still re-join. + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) + join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) + # Update the displayname before the token range + displayname_change_before_token_range_response = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname during token range", + }, + tok=user1_tok, + ) + + after_room1_token = self.event_sources.get_current_token() + + # Update the displayname after the token range + displayname_change_after_token_range_response = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname after token range", + }, + tok=user1_tok, + ) + + room_id_results = self.get_success( + self.sliding_sync_handler.get_sync_room_ids_for_user( + UserID.from_string(user1_id), + from_token=after_room1_token, + to_token=after_room1_token, + ) + ) + + # Room should show up because we were joined before the from/to range + self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + displayname_change_before_token_range_response["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response": join_response["event_id"], + "displayname_change_before_token_range_response": displayname_change_before_token_range_response[ + "event_id" + ], + "displayname_change_after_token_range_response": displayname_change_after_token_range_response[ + "event_id" + ], + } + ), + ) + # We should *NOT* be `newly_joined` because we joined before the token range + self.assertEqual(room_id_results[room_id1].newly_joined, False) + + def test_display_name_changes_leave_after_token_range( + self, + ) -> None: + """ + Test that we point to the correct membership event within the from/to range even + if there are multiple `join` membership events in a row indicating + `displayname`/`avatar_url` updates and we leave after the `to_token`. + + See condition "1a)" comments in the `get_sync_room_ids_for_user()` method. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + # We create the room with user2 so the room isn't left with no members when we + # leave and can still re-join. + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) + join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) + # Update the displayname during the token range + displayname_change_during_token_range_response = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname during token range", + }, + tok=user1_tok, + ) + + after_room1_token = self.event_sources.get_current_token() + + # Update the displayname after the token range + displayname_change_after_token_range_response = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname after token range", + }, + tok=user1_tok, + ) + + # Leave after the token + self.helper.leave(room_id1, user1_id, tok=user1_tok) + + room_id_results = self.get_success( + self.sliding_sync_handler.get_sync_room_ids_for_user( + UserID.from_string(user1_id), + from_token=before_room1_token, + to_token=after_room1_token, + ) + ) + + # Room should show up because we were joined during the from/to range + self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + displayname_change_during_token_range_response["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response": join_response["event_id"], + "displayname_change_during_token_range_response": displayname_change_during_token_range_response[ + "event_id" + ], + "displayname_change_after_token_range_response": displayname_change_after_token_range_response[ + "event_id" + ], + } + ), + ) + # We should be `newly_joined` because we joined during the token range + self.assertEqual(room_id_results[room_id1].newly_joined, True) + + def test_display_name_changes_join_after_token_range( + self, + ) -> None: + """ + Test that multiple `join` membership events (after the `to_token`) in a row + indicating `displayname`/`avatar_url` updates doesn't affect the results (we + joined after the token range so it shouldn't show up) + + See condition "1b)" comments in the `get_sync_room_ids_for_user()` method. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + # We create the room with user2 so the room isn't left with no members when we + # leave and can still re-join. + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) + + after_room1_token = self.event_sources.get_current_token() + + self.helper.join(room_id1, user1_id, tok=user1_tok) + # Update the displayname after the token range + self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname after token range", + }, + tok=user1_tok, + ) + + room_id_results = self.get_success( + self.sliding_sync_handler.get_sync_room_ids_for_user( + UserID.from_string(user1_id), + from_token=before_room1_token, + to_token=after_room1_token, + ) + ) + + # Room shouldn't show up because we joined after the from/to range + self.assertEqual(room_id_results.keys(), set()) + + def test_newly_joined_with_leave_join_in_token_range( + self, + ) -> None: + """ + Test that `newly_joined` TODO + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + # We create the room with user2 so the room isn't left with no members when we + # leave and can still re-join. + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) + self.helper.join(room_id1, user1_id, tok=user1_tok) + + after_room1_token = self.event_sources.get_current_token() + + # Leave and join back during the token range + self.helper.leave(room_id1, user1_id, tok=user1_tok) + join_response2 = self.helper.join(room_id1, user1_id, tok=user1_tok) + + after_more_changes_token = self.event_sources.get_current_token() + + room_id_results = self.get_success( + self.sliding_sync_handler.get_sync_room_ids_for_user( + UserID.from_string(user1_id), + from_token=after_room1_token, + to_token=after_more_changes_token, + ) + ) + + # Room should show up because we were joined during the from/to range + self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + join_response2["event_id"], + ) + # We should be considered `newly_joined` because there is some non-join event in + # between our latest join event. + self.assertEqual(room_id_results[room_id1].newly_joined, True) + + def test_newly_joined_only_joins_during_token_range( + self, + ) -> None: + """ + Test that a join and more joins caused by display name changes, all during the + token range, still count as `newly_joined`. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + # We create the room with user2 so the room isn't left with no members when we + # leave and can still re-join. + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok, is_public=True) + # Join, leave, join back to the room before the from/to range + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + # Update the displayname during the token range (looks like another join) + displayname_change_during_token_range_response1 = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname during token range", + }, + tok=user1_tok, + ) + # Update the displayname during the token range (looks like another join) + displayname_change_during_token_range_response2 = self.helper.send_state( + room_id1, + event_type=EventTypes.Member, + state_key=user1_id, + body={ + "membership": Membership.JOIN, + "displayname": "displayname during token range", + }, + tok=user1_tok, + ) + + after_room1_token = self.event_sources.get_current_token() + + room_id_results = self.get_success( + self.sliding_sync_handler.get_sync_room_ids_for_user( + UserID.from_string(user1_id), + from_token=before_room1_token, + to_token=after_room1_token, + ) + ) + + # Room should show up because it was newly_left and joined during the from/to range + self.assertEqual(room_id_results.keys(), {room_id1}) + # It should be pointing to the latest membership event in the from/to range + self.assertEqual( + room_id_results[room_id1].event_id, + displayname_change_during_token_range_response2["event_id"], + "Corresponding map to disambiguate the opaque event IDs: " + + str( + { + "join_response1": join_response1["event_id"], + "displayname_change_during_token_range_response1": displayname_change_during_token_range_response1[ + "event_id" + ], + "displayname_change_during_token_range_response2": displayname_change_during_token_range_response2[ + "event_id" + ], + } + ), + ) + # We should be `newly_joined` because we first joined during the token range + self.assertEqual(room_id_results[room_id1].newly_joined, True) def test_multiple_rooms_are_not_confused( self, diff --git a/tests/rest/client/test_sync.py b/tests/rest/client/test_sync.py index bfb26139d3..bd1e7d521b 100644 --- a/tests/rest/client/test_sync.py +++ b/tests/rest/client/test_sync.py @@ -31,12 +31,13 @@ from synapse.api.constants import ( AccountDataTypes, EventContentFields, EventTypes, + HistoryVisibility, ReceiptTypes, RelationTypes, ) from synapse.rest.client import devices, knock, login, read_marker, receipts, room, sync from synapse.server import HomeServer -from synapse.types import JsonDict, RoomStreamToken, StreamKeyType +from synapse.types import JsonDict, RoomStreamToken, StreamKeyType, StreamToken, UserID from synapse.util import Clock from tests import unittest @@ -1326,7 +1327,7 @@ class SlidingSyncTestCase(unittest.HomeserverTestCase): def test_sync_list(self) -> None: """ - Test that room IDs show up in the Sliding Sync lists + Test that room IDs show up in the Sliding Sync `lists` """ alice_user_id = self.register_user("alice", "correcthorse") alice_access_token = self.login(alice_user_id, "correcthorse") @@ -1423,15 +1424,13 @@ class SlidingSyncTestCase(unittest.HomeserverTestCase): channel.await_result(timeout_ms=200) self.assertEqual(channel.code, 200, channel.json_body) - # We expect the `next_pos` in the result to be the same as what we requested + # We expect the next `pos` in the result to be the same as what we requested # with because we weren't able to find anything new yet. - self.assertEqual( - channel.json_body["next_pos"], future_position_token_serialized - ) + self.assertEqual(channel.json_body["pos"], future_position_token_serialized) def test_filter_list(self) -> None: """ - Test that filters apply to lists + Test that filters apply to `lists` """ user1_id = self.register_user("user1", "pass") user1_tok = self.login(user1_id, "pass") @@ -1562,7 +1561,7 @@ class SlidingSyncTestCase(unittest.HomeserverTestCase): def test_sort_list(self) -> None: """ - Test that the lists are sorted by `stream_ordering` + Test that the `lists` are sorted by `stream_ordering` """ user1_id = self.register_user("user1", "pass") user1_tok = self.login(user1_id, "pass") @@ -1616,3 +1615,975 @@ class SlidingSyncTestCase(unittest.HomeserverTestCase): ], channel.json_body["lists"]["foo-list"], ) + + def test_rooms_limited_initial_sync(self) -> None: + """ + Test that we mark `rooms` as `limited=True` when we saturate the `timeline_limit` + on initial sync. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.send(room_id1, "activity1", tok=user2_tok) + self.helper.send(room_id1, "activity2", tok=user2_tok) + event_response3 = self.helper.send(room_id1, "activity3", tok=user2_tok) + event_pos3 = self.get_success( + self.store.get_position_for_event(event_response3["event_id"]) + ) + event_response4 = self.helper.send(room_id1, "activity4", tok=user2_tok) + event_pos4 = self.get_success( + self.store.get_position_for_event(event_response4["event_id"]) + ) + event_response5 = self.helper.send(room_id1, "activity5", tok=user2_tok) + user1_join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) + + # Make the Sliding Sync request + channel = self.make_request( + "POST", + self.sync_endpoint, + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": 3, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # We expect to saturate the `timeline_limit` (there are more than 3 messages in the room) + self.assertEqual( + channel.json_body["rooms"][room_id1]["limited"], + True, + channel.json_body["rooms"][room_id1], + ) + # Check to make sure the latest events are returned + self.assertEqual( + [ + event["event_id"] + for event in channel.json_body["rooms"][room_id1]["timeline"] + ], + [ + event_response4["event_id"], + event_response5["event_id"], + user1_join_response["event_id"], + ], + channel.json_body["rooms"][room_id1]["timeline"], + ) + + # Check to make sure the `prev_batch` points at the right place + prev_batch_token = self.get_success( + StreamToken.from_string( + self.store, channel.json_body["rooms"][room_id1]["prev_batch"] + ) + ) + prev_batch_room_stream_token_serialized = self.get_success( + prev_batch_token.room_key.to_string(self.store) + ) + # If we use the `prev_batch` token to look backwards, we should see `event3` + # next so make sure the token encompasses it + self.assertEqual( + event_pos3.persisted_after(prev_batch_token.room_key), + False, + f"`prev_batch` token {prev_batch_room_stream_token_serialized} should be >= event_pos3={self.get_success(event_pos3.to_room_stream_token().to_string(self.store))}", + ) + # If we use the `prev_batch` token to look backwards, we shouldn't see `event4` + # anymore since it was just returned in this response. + self.assertEqual( + event_pos4.persisted_after(prev_batch_token.room_key), + True, + f"`prev_batch` token {prev_batch_room_stream_token_serialized} should be < event_pos4={self.get_success(event_pos4.to_room_stream_token().to_string(self.store))}", + ) + + # With no `from_token` (initial sync), it's all historical since there is no + # "live" range + self.assertEqual( + channel.json_body["rooms"][room_id1]["num_live"], + 0, + channel.json_body["rooms"][room_id1], + ) + + def test_rooms_not_limited_initial_sync(self) -> None: + """ + Test that we mark `rooms` as `limited=False` when there are no more events to + paginate to. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.send(room_id1, "activity1", tok=user2_tok) + self.helper.send(room_id1, "activity2", tok=user2_tok) + self.helper.send(room_id1, "activity3", tok=user2_tok) + self.helper.join(room_id1, user1_id, tok=user1_tok) + + # Make the Sliding Sync request + timeline_limit = 100 + channel = self.make_request( + "POST", + self.sync_endpoint, + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": timeline_limit, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # The timeline should be `limited=False` because we have all of the events (no + # more to paginate to) + self.assertEqual( + channel.json_body["rooms"][room_id1]["limited"], + False, + channel.json_body["rooms"][room_id1], + ) + expected_number_of_events = 9 + # We're just looking to make sure we got all of the events before hitting the `timeline_limit` + self.assertEqual( + len(channel.json_body["rooms"][room_id1]["timeline"]), + expected_number_of_events, + channel.json_body["rooms"][room_id1]["timeline"], + ) + self.assertLessEqual(expected_number_of_events, timeline_limit) + + # With no `from_token` (initial sync), it's all historical since there is no + # "live" token range. + self.assertEqual( + channel.json_body["rooms"][room_id1]["num_live"], + 0, + channel.json_body["rooms"][room_id1], + ) + + def test_rooms_incremental_sync(self) -> None: + """ + Test `rooms` data during an incremental sync after an initial sync. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.join(room_id1, user1_id, tok=user1_tok) + self.helper.send(room_id1, "activity before initial sync1", tok=user2_tok) + + # Make an initial Sliding Sync request to grab a token. This is also a sanity + # check that we can go from initial to incremental sync. + sync_params = { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": 3, + } + } + } + channel = self.make_request( + "POST", + self.sync_endpoint, + sync_params, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + next_pos = channel.json_body["pos"] + + # Send some events but don't send enough to saturate the `timeline_limit`. + # We want to later test that we only get the new events since the `next_pos` + event_response2 = self.helper.send(room_id1, "activity after2", tok=user2_tok) + event_response3 = self.helper.send(room_id1, "activity after3", tok=user2_tok) + + # Make an incremental Sliding Sync request (what we're trying to test) + channel = self.make_request( + "POST", + self.sync_endpoint + f"?pos={next_pos}", + sync_params, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # We only expect to see the new events since the last sync which isn't enough to + # fill up the `timeline_limit`. + self.assertEqual( + channel.json_body["rooms"][room_id1]["limited"], + False, + f'Our `timeline_limit` was {sync_params["lists"]["foo-list"]["timeline_limit"]} ' + + f'and {len(channel.json_body["rooms"][room_id1]["timeline"])} events were returned in the timeline. ' + + str(channel.json_body["rooms"][room_id1]), + ) + # Check to make sure the latest events are returned + self.assertEqual( + [ + event["event_id"] + for event in channel.json_body["rooms"][room_id1]["timeline"] + ], + [ + event_response2["event_id"], + event_response3["event_id"], + ], + channel.json_body["rooms"][room_id1]["timeline"], + ) + + # All events are "live" + self.assertEqual( + channel.json_body["rooms"][room_id1]["num_live"], + 2, + channel.json_body["rooms"][room_id1], + ) + + def test_rooms_newly_joined_incremental_sync(self) -> None: + """ + Test that when we make an incremental sync with a `newly_joined` `rooms`, we are + able to see some historical events before the `from_token`. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.send(room_id1, "activity before token1", tok=user2_tok) + event_response2 = self.helper.send( + room_id1, "activity before token2", tok=user2_tok + ) + + from_token = self.event_sources.get_current_token() + + # Join the room after the `from_token` which will make us consider this room as + # `newly_joined`. + user1_join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) + + # Send some events but don't send enough to saturate the `timeline_limit`. + # We want to later test that we only get the new events since the `next_pos` + event_response3 = self.helper.send( + room_id1, "activity after token3", tok=user2_tok + ) + event_response4 = self.helper.send( + room_id1, "activity after token4", tok=user2_tok + ) + + # The `timeline_limit` is set to 4 so we can at least see one historical event + # before the `from_token`. We should see historical events because this is a + # `newly_joined` room. + timeline_limit = 4 + # Make an incremental Sliding Sync request (what we're trying to test) + channel = self.make_request( + "POST", + self.sync_endpoint + + f"?pos={self.get_success(from_token.to_string(self.store))}", + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": timeline_limit, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # We should see the new events and the rest should be filled with historical + # events which will make us `limited=True` since there are more to paginate to. + self.assertEqual( + channel.json_body["rooms"][room_id1]["limited"], + True, + f"Our `timeline_limit` was {timeline_limit} " + + f'and {len(channel.json_body["rooms"][room_id1]["timeline"])} events were returned in the timeline. ' + + str(channel.json_body["rooms"][room_id1]), + ) + # Check to make sure that the "live" and historical events are returned + self.assertEqual( + [ + event["event_id"] + for event in channel.json_body["rooms"][room_id1]["timeline"] + ], + [ + event_response2["event_id"], + user1_join_response["event_id"], + event_response3["event_id"], + event_response4["event_id"], + ], + channel.json_body["rooms"][room_id1]["timeline"], + ) + + # Only events after the `from_token` are "live" (join, event3, event4) + self.assertEqual( + channel.json_body["rooms"][room_id1]["num_live"], + 3, + channel.json_body["rooms"][room_id1], + ) + + def test_rooms_invite_shared_history_initial_sync(self) -> None: + """ + Test that `rooms` we are invited to have some stripped `invite_state` during an + initial sync. + + This is an `invite` room so we should only have `stripped_state` (no `timeline`) + but we also shouldn't see any timeline events because the history visiblity is + `shared` and we haven't joined the room yet. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user1 = UserID.from_string(user1_id) + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + user2 = UserID.from_string(user2_id) + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + # Ensure we're testing with a room with `shared` history visibility which means + # history visible until you actually join the room. + history_visibility_response = self.helper.get_state( + room_id1, EventTypes.RoomHistoryVisibility, tok=user2_tok + ) + self.assertEqual( + history_visibility_response.get("history_visibility"), + HistoryVisibility.SHARED, + ) + + self.helper.send(room_id1, "activity before1", tok=user2_tok) + self.helper.send(room_id1, "activity before2", tok=user2_tok) + self.helper.invite(room_id1, src=user2_id, targ=user1_id, tok=user2_tok) + self.helper.send(room_id1, "activity after3", tok=user2_tok) + self.helper.send(room_id1, "activity after4", tok=user2_tok) + + # Make the Sliding Sync request + channel = self.make_request( + "POST", + self.sync_endpoint, + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": 3, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # `timeline` is omitted for `invite` rooms with `stripped_state` + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("timeline"), + channel.json_body["rooms"][room_id1], + ) + # `num_live` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("num_live"), + channel.json_body["rooms"][room_id1], + ) + # `limited` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("limited"), + channel.json_body["rooms"][room_id1], + ) + # `prev_batch` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("prev_batch"), + channel.json_body["rooms"][room_id1], + ) + # We should have some `stripped_state` so the potential joiner can identify the + # room (we don't care about the order). + self.assertCountEqual( + channel.json_body["rooms"][room_id1]["invite_state"], + [ + { + "content": {"creator": user2_id, "room_version": "10"}, + "sender": user2_id, + "state_key": "", + "type": "m.room.create", + }, + { + "content": {"join_rule": "public"}, + "sender": user2_id, + "state_key": "", + "type": "m.room.join_rules", + }, + { + "content": {"displayname": user2.localpart, "membership": "join"}, + "sender": user2_id, + "state_key": user2_id, + "type": "m.room.member", + }, + { + "content": {"displayname": user1.localpart, "membership": "invite"}, + "sender": user2_id, + "state_key": user1_id, + "type": "m.room.member", + }, + ], + channel.json_body["rooms"][room_id1]["invite_state"], + ) + + def test_rooms_invite_shared_history_incremental_sync(self) -> None: + """ + Test that `rooms` we are invited to have some stripped `invite_state` during an + incremental sync. + + This is an `invite` room so we should only have `stripped_state` (no `timeline`) + but we also shouldn't see any timeline events because the history visiblity is + `shared` and we haven't joined the room yet. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user1 = UserID.from_string(user1_id) + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + user2 = UserID.from_string(user2_id) + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + # Ensure we're testing with a room with `shared` history visibility which means + # history visible until you actually join the room. + history_visibility_response = self.helper.get_state( + room_id1, EventTypes.RoomHistoryVisibility, tok=user2_tok + ) + self.assertEqual( + history_visibility_response.get("history_visibility"), + HistoryVisibility.SHARED, + ) + + self.helper.send(room_id1, "activity before invite1", tok=user2_tok) + self.helper.send(room_id1, "activity before invite2", tok=user2_tok) + self.helper.invite(room_id1, src=user2_id, targ=user1_id, tok=user2_tok) + self.helper.send(room_id1, "activity after invite3", tok=user2_tok) + self.helper.send(room_id1, "activity after invite4", tok=user2_tok) + + from_token = self.event_sources.get_current_token() + + self.helper.send(room_id1, "activity after token5", tok=user2_tok) + self.helper.send(room_id1, "activity after toekn6", tok=user2_tok) + + # Make the Sliding Sync request + channel = self.make_request( + "POST", + self.sync_endpoint + + f"?pos={self.get_success(from_token.to_string(self.store))}", + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": 3, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # `timeline` is omitted for `invite` rooms with `stripped_state` + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("timeline"), + channel.json_body["rooms"][room_id1], + ) + # `num_live` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("num_live"), + channel.json_body["rooms"][room_id1], + ) + # `limited` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("limited"), + channel.json_body["rooms"][room_id1], + ) + # `prev_batch` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("prev_batch"), + channel.json_body["rooms"][room_id1], + ) + # We should have some `stripped_state` so the potential joiner can identify the + # room (we don't care about the order). + self.assertCountEqual( + channel.json_body["rooms"][room_id1]["invite_state"], + [ + { + "content": {"creator": user2_id, "room_version": "10"}, + "sender": user2_id, + "state_key": "", + "type": "m.room.create", + }, + { + "content": {"join_rule": "public"}, + "sender": user2_id, + "state_key": "", + "type": "m.room.join_rules", + }, + { + "content": {"displayname": user2.localpart, "membership": "join"}, + "sender": user2_id, + "state_key": user2_id, + "type": "m.room.member", + }, + { + "content": {"displayname": user1.localpart, "membership": "invite"}, + "sender": user2_id, + "state_key": user1_id, + "type": "m.room.member", + }, + ], + channel.json_body["rooms"][room_id1]["invite_state"], + ) + + def test_rooms_invite_world_readable_history_initial_sync(self) -> None: + """ + Test that `rooms` we are invited to have some stripped `invite_state` during an + initial sync. + + This is an `invite` room so we should only have `stripped_state` (no `timeline`) + but depending on the semantics we decide, we could potentially see some + historical events before/after the `from_token` because the history is + `world_readable`. Same situation for events after the `from_token` if the + history visibility was set to `invited`. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user1 = UserID.from_string(user1_id) + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + user2 = UserID.from_string(user2_id) + + room_id1 = self.helper.create_room_as( + user2_id, + tok=user2_tok, + extra_content={ + "preset": "public_chat", + "initial_state": [ + { + "content": { + "history_visibility": HistoryVisibility.WORLD_READABLE + }, + "state_key": "", + "type": EventTypes.RoomHistoryVisibility, + } + ], + }, + ) + # Ensure we're testing with a room with `world_readable` history visibility + # which means events are visible to anyone even without membership. + history_visibility_response = self.helper.get_state( + room_id1, EventTypes.RoomHistoryVisibility, tok=user2_tok + ) + self.assertEqual( + history_visibility_response.get("history_visibility"), + HistoryVisibility.WORLD_READABLE, + ) + + self.helper.send(room_id1, "activity before1", tok=user2_tok) + self.helper.send(room_id1, "activity before2", tok=user2_tok) + self.helper.invite(room_id1, src=user2_id, targ=user1_id, tok=user2_tok) + self.helper.send(room_id1, "activity after3", tok=user2_tok) + self.helper.send(room_id1, "activity after4", tok=user2_tok) + + # Make the Sliding Sync request + channel = self.make_request( + "POST", + self.sync_endpoint, + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + # Large enough to see the latest events and before the invite + "timeline_limit": 4, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # `timeline` is omitted for `invite` rooms with `stripped_state` + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("timeline"), + channel.json_body["rooms"][room_id1], + ) + # `num_live` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("num_live"), + channel.json_body["rooms"][room_id1], + ) + # `limited` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("limited"), + channel.json_body["rooms"][room_id1], + ) + # `prev_batch` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("prev_batch"), + channel.json_body["rooms"][room_id1], + ) + # We should have some `stripped_state` so the potential joiner can identify the + # room (we don't care about the order). + self.assertCountEqual( + channel.json_body["rooms"][room_id1]["invite_state"], + [ + { + "content": {"creator": user2_id, "room_version": "10"}, + "sender": user2_id, + "state_key": "", + "type": "m.room.create", + }, + { + "content": {"join_rule": "public"}, + "sender": user2_id, + "state_key": "", + "type": "m.room.join_rules", + }, + { + "content": {"displayname": user2.localpart, "membership": "join"}, + "sender": user2_id, + "state_key": user2_id, + "type": "m.room.member", + }, + { + "content": {"displayname": user1.localpart, "membership": "invite"}, + "sender": user2_id, + "state_key": user1_id, + "type": "m.room.member", + }, + ], + channel.json_body["rooms"][room_id1]["invite_state"], + ) + + def test_rooms_invite_world_readable_history_incremental_sync(self) -> None: + """ + Test that `rooms` we are invited to have some stripped `invite_state` during an + incremental sync. + + This is an `invite` room so we should only have `stripped_state` (no `timeline`) + but depending on the semantics we decide, we could potentially see some + historical events before/after the `from_token` because the history is + `world_readable`. Same situation for events after the `from_token` if the + history visibility was set to `invited`. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user1 = UserID.from_string(user1_id) + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + user2 = UserID.from_string(user2_id) + + room_id1 = self.helper.create_room_as( + user2_id, + tok=user2_tok, + extra_content={ + "preset": "public_chat", + "initial_state": [ + { + "content": { + "history_visibility": HistoryVisibility.WORLD_READABLE + }, + "state_key": "", + "type": EventTypes.RoomHistoryVisibility, + } + ], + }, + ) + # Ensure we're testing with a room with `world_readable` history visibility + # which means events are visible to anyone even without membership. + history_visibility_response = self.helper.get_state( + room_id1, EventTypes.RoomHistoryVisibility, tok=user2_tok + ) + self.assertEqual( + history_visibility_response.get("history_visibility"), + HistoryVisibility.WORLD_READABLE, + ) + + self.helper.send(room_id1, "activity before invite1", tok=user2_tok) + self.helper.send(room_id1, "activity before invite2", tok=user2_tok) + self.helper.invite(room_id1, src=user2_id, targ=user1_id, tok=user2_tok) + self.helper.send(room_id1, "activity after invite3", tok=user2_tok) + self.helper.send(room_id1, "activity after invite4", tok=user2_tok) + + from_token = self.event_sources.get_current_token() + + self.helper.send(room_id1, "activity after token5", tok=user2_tok) + self.helper.send(room_id1, "activity after toekn6", tok=user2_tok) + + # Make the Sliding Sync request + channel = self.make_request( + "POST", + self.sync_endpoint + + f"?pos={self.get_success(from_token.to_string(self.store))}", + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + # Large enough to see the latest events and before the invite + "timeline_limit": 4, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # `timeline` is omitted for `invite` rooms with `stripped_state` + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("timeline"), + channel.json_body["rooms"][room_id1], + ) + # `num_live` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("num_live"), + channel.json_body["rooms"][room_id1], + ) + # `limited` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("limited"), + channel.json_body["rooms"][room_id1], + ) + # `prev_batch` is omitted for `invite` rooms with `stripped_state` (no timeline anyway) + self.assertIsNone( + channel.json_body["rooms"][room_id1].get("prev_batch"), + channel.json_body["rooms"][room_id1], + ) + # We should have some `stripped_state` so the potential joiner can identify the + # room (we don't care about the order). + self.assertCountEqual( + channel.json_body["rooms"][room_id1]["invite_state"], + [ + { + "content": {"creator": user2_id, "room_version": "10"}, + "sender": user2_id, + "state_key": "", + "type": "m.room.create", + }, + { + "content": {"join_rule": "public"}, + "sender": user2_id, + "state_key": "", + "type": "m.room.join_rules", + }, + { + "content": {"displayname": user2.localpart, "membership": "join"}, + "sender": user2_id, + "state_key": user2_id, + "type": "m.room.member", + }, + { + "content": {"displayname": user1.localpart, "membership": "invite"}, + "sender": user2_id, + "state_key": user1_id, + "type": "m.room.member", + }, + ], + channel.json_body["rooms"][room_id1]["invite_state"], + ) + + def test_rooms_ban_initial_sync(self) -> None: + """ + Test that `rooms` we are banned from in an intial sync only allows us to see + timeline events up to the ban event. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.send(room_id1, "activity before1", tok=user2_tok) + self.helper.send(room_id1, "activity before2", tok=user2_tok) + self.helper.join(room_id1, user1_id, tok=user1_tok) + + event_response3 = self.helper.send(room_id1, "activity after3", tok=user2_tok) + event_response4 = self.helper.send(room_id1, "activity after4", tok=user2_tok) + user1_ban_response = self.helper.ban( + room_id1, src=user2_id, targ=user1_id, tok=user2_tok + ) + + self.helper.send(room_id1, "activity after5", tok=user2_tok) + self.helper.send(room_id1, "activity after6", tok=user2_tok) + + # Make the Sliding Sync request + channel = self.make_request( + "POST", + self.sync_endpoint, + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": 3, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # We should see events before the ban but not after + self.assertEqual( + [ + event["event_id"] + for event in channel.json_body["rooms"][room_id1]["timeline"] + ], + [ + event_response3["event_id"], + event_response4["event_id"], + user1_ban_response["event_id"], + ], + channel.json_body["rooms"][room_id1]["timeline"], + ) + # No "live" events in an initial sync (no `from_token` to define the "live" + # range) + self.assertEqual( + channel.json_body["rooms"][room_id1]["num_live"], + 0, + channel.json_body["rooms"][room_id1], + ) + # There are more events to paginate to + self.assertEqual( + channel.json_body["rooms"][room_id1]["limited"], + True, + channel.json_body["rooms"][room_id1], + ) + + def test_rooms_ban_incremental_sync1(self) -> None: + """ + Test that `rooms` we are banned from during the next incremental sync only + allows us to see timeline events up to the ban event. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.send(room_id1, "activity before1", tok=user2_tok) + self.helper.send(room_id1, "activity before2", tok=user2_tok) + self.helper.join(room_id1, user1_id, tok=user1_tok) + + from_token = self.event_sources.get_current_token() + + event_response3 = self.helper.send(room_id1, "activity after3", tok=user2_tok) + event_response4 = self.helper.send(room_id1, "activity after4", tok=user2_tok) + # The ban is within the token range (between the `from_token` and the sliding + # sync request) + user1_ban_response = self.helper.ban( + room_id1, src=user2_id, targ=user1_id, tok=user2_tok + ) + + self.helper.send(room_id1, "activity after5", tok=user2_tok) + self.helper.send(room_id1, "activity after6", tok=user2_tok) + + # Make the Sliding Sync request + channel = self.make_request( + "POST", + self.sync_endpoint + + f"?pos={self.get_success(from_token.to_string(self.store))}", + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": 4, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # We should see events before the ban but not after + self.assertEqual( + [ + event["event_id"] + for event in channel.json_body["rooms"][room_id1]["timeline"] + ], + [ + event_response3["event_id"], + event_response4["event_id"], + user1_ban_response["event_id"], + ], + channel.json_body["rooms"][room_id1]["timeline"], + ) + # All live events in the incremental sync + self.assertEqual( + channel.json_body["rooms"][room_id1]["num_live"], + 3, + channel.json_body["rooms"][room_id1], + ) + # There aren't anymore events to paginate to in this range + self.assertEqual( + channel.json_body["rooms"][room_id1]["limited"], + False, + channel.json_body["rooms"][room_id1], + ) + + def test_rooms_ban_incremental_sync2(self) -> None: + """ + Test that `rooms` we are banned from before the incremental sync don't return + any events in the timeline. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.send(room_id1, "activity before1", tok=user2_tok) + self.helper.join(room_id1, user1_id, tok=user1_tok) + + self.helper.send(room_id1, "activity after2", tok=user2_tok) + # The ban is before we get our `from_token` + self.helper.ban(room_id1, src=user2_id, targ=user1_id, tok=user2_tok) + + self.helper.send(room_id1, "activity after3", tok=user2_tok) + + from_token = self.event_sources.get_current_token() + + self.helper.send(room_id1, "activity after4", tok=user2_tok) + + # Make the Sliding Sync request + channel = self.make_request( + "POST", + self.sync_endpoint + + f"?pos={self.get_success(from_token.to_string(self.store))}", + { + "lists": { + "foo-list": { + "ranges": [[0, 1]], + "required_state": [], + "timeline_limit": 4, + } + } + }, + access_token=user1_tok, + ) + self.assertEqual(channel.code, 200, channel.json_body) + + # Nothing to see for this banned user in the room in the token range + self.assertEqual( + channel.json_body["rooms"][room_id1]["timeline"], + [], + channel.json_body["rooms"][room_id1]["timeline"], + ) + # No events returned in the timeline so nothing is "live" + self.assertEqual( + channel.json_body["rooms"][room_id1]["num_live"], + 0, + channel.json_body["rooms"][room_id1], + ) + # There aren't anymore events to paginate to in this range + self.assertEqual( + channel.json_body["rooms"][room_id1]["limited"], + False, + channel.json_body["rooms"][room_id1], + ) diff --git a/tests/rest/client/utils.py b/tests/rest/client/utils.py index f0ba40a1f1..e43140720d 100644 --- a/tests/rest/client/utils.py +++ b/tests/rest/client/utils.py @@ -261,9 +261,9 @@ class RestHelper: targ: str, expect_code: int = HTTPStatus.OK, tok: Optional[str] = None, - ) -> None: + ) -> JsonDict: """A convenience helper: `change_membership` with `membership` preset to "ban".""" - self.change_membership( + return self.change_membership( room=room, src=src, targ=targ, diff --git a/tests/storage/test_stream.py b/tests/storage/test_stream.py index fe1e873e15..acb2f0e429 100644 --- a/tests/storage/test_stream.py +++ b/tests/storage/test_stream.py @@ -21,20 +21,32 @@ import logging from typing import List, Tuple +from unittest.mock import AsyncMock, patch from immutabledict import immutabledict from twisted.test.proto_helpers import MemoryReactor -from synapse.api.constants import Direction, EventTypes, RelationTypes +from synapse.api.constants import Direction, EventTypes, Membership, RelationTypes from synapse.api.filtering import Filter +from synapse.crypto.event_signing import add_hashes_and_signatures +from synapse.events import FrozenEventV3 +from synapse.federation.federation_client import SendJoinResult from synapse.rest import admin from synapse.rest.client import login, room from synapse.server import HomeServer -from synapse.types import JsonDict, PersistedEventPosition, RoomStreamToken +from synapse.storage.databases.main.stream import CurrentStateDeltaMembership +from synapse.types import ( + JsonDict, + PersistedEventPosition, + RoomStreamToken, + UserID, + create_requester, +) from synapse.util import Clock -from tests.unittest import HomeserverTestCase +from tests.test_utils.event_injection import create_event +from tests.unittest import FederatingHomeserverTestCase, HomeserverTestCase logger = logging.getLogger(__name__) @@ -543,3 +555,830 @@ class GetLastEventInRoomBeforeStreamOrderingTestCase(HomeserverTestCase): } ), ) + + +class GetCurrentStateDeltaMembershipChangesForUserTestCase(HomeserverTestCase): + """ + Test `get_current_state_delta_membership_changes_for_user(...)` + """ + + servlets = [ + admin.register_servlets, + room.register_servlets, + login.register_servlets, + ] + + def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None: + self.store = hs.get_datastores().main + self.event_sources = hs.get_event_sources() + self.state_handler = self.hs.get_state_handler() + persistence = hs.get_storage_controllers().persistence + assert persistence is not None + self.persistence = persistence + + def test_returns_membership_events(self) -> None: + """ + A basic test that a membership event in the token range is returned for the user. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response = self.helper.join(room_id1, user1_id, tok=user1_tok) + join_pos = self.get_success( + self.store.get_position_for_event(join_response["event_id"]) + ) + + after_room1_token = self.event_sources.get_current_token() + + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user1_id, + from_key=before_room1_token.room_key, + to_key=after_room1_token.room_key, + ) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [ + CurrentStateDeltaMembership( + event_id=join_response["event_id"], + event_pos=join_pos, + prev_event_id=None, + room_id=room_id1, + membership="join", + sender=user1_id, + state_reset=False, + ) + ], + ) + + def test_server_left_room_after_us(self) -> None: + """ + Test that when probing over part of the DAG where the server left the room *after + us*, we still see the join and leave changes. + + This is to make sure we play nicely with this behavior: When the server leaves a + room, it will insert new rows with `event_id = null` into the + `current_state_delta_stream` table for all current state. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + room_id1 = self.helper.create_room_as( + user2_id, + tok=user2_tok, + extra_content={ + "power_level_content_override": { + "users": { + user2_id: 100, + # Allow user1 to send state in the room + user1_id: 100, + } + } + }, + ) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + join_pos1 = self.get_success( + self.store.get_position_for_event(join_response1["event_id"]) + ) + # Make sure that random other non-member state that happens to have a `state_key` + # matching the user ID doesn't mess with things. + self.helper.send_state( + room_id1, + event_type="foobarbazdummy", + state_key=user1_id, + body={"foo": "bar"}, + tok=user1_tok, + ) + # User1 should leave the room first + leave_response1 = self.helper.leave(room_id1, user1_id, tok=user1_tok) + leave_pos1 = self.get_success( + self.store.get_position_for_event(leave_response1["event_id"]) + ) + + # User2 should also leave the room (everyone has left the room which means the + # server is no longer in the room). + self.helper.leave(room_id1, user2_id, tok=user2_tok) + + after_room1_token = self.event_sources.get_current_token() + + # Get the membership changes for the user. + # + # At this point, the `current_state_delta_stream` table should look like the + # following. When the server leaves a room, it will insert new rows with + # `event_id = null` for all current state. + # + # | stream_id | room_id | type | state_key | event_id | prev_event_id | + # |-----------|----------|-----------------------------|----------------|----------|---------------| + # | 2 | !x:test | 'm.room.create' | '' | $xxx | None | + # | 3 | !x:test | 'm.room.member' | '@user2:test' | $aaa | None | + # | 4 | !x:test | 'm.room.history_visibility' | '' | $xxx | None | + # | 4 | !x:test | 'm.room.join_rules' | '' | $xxx | None | + # | 4 | !x:test | 'm.room.power_levels' | '' | $xxx | None | + # | 7 | !x:test | 'm.room.member' | '@user1:test' | $ooo | None | + # | 8 | !x:test | 'foobarbazdummy' | '@user1:test' | $xxx | None | + # | 9 | !x:test | 'm.room.member' | '@user1:test' | $ppp | $ooo | + # | 10 | !x:test | 'foobarbazdummy' | '@user1:test' | None | $xxx | + # | 10 | !x:test | 'm.room.create' | '' | None | $xxx | + # | 10 | !x:test | 'm.room.history_visibility' | '' | None | $xxx | + # | 10 | !x:test | 'm.room.join_rules' | '' | None | $xxx | + # | 10 | !x:test | 'm.room.member' | '@user1:test' | None | $ppp | + # | 10 | !x:test | 'm.room.member' | '@user2:test' | None | $aaa | + # | 10 | !x:test | 'm.room.power_levels' | | None | $xxx | + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user1_id, + from_key=before_room1_token.room_key, + to_key=after_room1_token.room_key, + ) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [ + CurrentStateDeltaMembership( + event_id=join_response1["event_id"], + event_pos=join_pos1, + prev_event_id=None, + room_id=room_id1, + membership="join", + sender=user1_id, + state_reset=False, + ), + CurrentStateDeltaMembership( + event_id=leave_response1["event_id"], + event_pos=leave_pos1, + prev_event_id=join_response1["event_id"], + room_id=room_id1, + membership="leave", + sender=user1_id, + state_reset=False, + ), + ], + ) + + def test_server_left_room_after_us_later(self) -> None: + """ + Test when the user leaves the room, then sometime later, everyone else leaves + the room, causing the server to leave the room, we shouldn't see any membership + changes. + + This is to make sure we play nicely with this behavior: When the server leaves a + room, it will insert new rows with `event_id = null` into the + `current_state_delta_stream` table for all current state. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.join(room_id1, user1_id, tok=user1_tok) + # User1 should leave the room first + self.helper.leave(room_id1, user1_id, tok=user1_tok) + + after_user1_leave_token = self.event_sources.get_current_token() + + # User2 should also leave the room (everyone has left the room which means the + # server is no longer in the room). + self.helper.leave(room_id1, user2_id, tok=user2_tok) + + after_server_leave_token = self.event_sources.get_current_token() + + # Join another room as user1 just to advance the stream_ordering and bust + # `_membership_stream_cache` + room_id2 = self.helper.create_room_as(user2_id, tok=user2_tok) + self.helper.join(room_id2, user1_id, tok=user1_tok) + + # Get the membership changes for the user. + # + # At this point, the `current_state_delta_stream` table should look like the + # following. When the server leaves a room, it will insert new rows with + # `event_id = null` for all current state. + # + # TODO: Add DB rows to better see what's going on. + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user1_id, + from_key=after_user1_leave_token.room_key, + to_key=after_server_leave_token.room_key, + ) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [], + ) + + def test_we_cause_server_left_room(self) -> None: + """ + Test that when probing over part of the DAG where the user leaves the room + causing the server to leave the room (because we were the last local user in the + room), we still see the join and leave changes. + + This is to make sure we play nicely with this behavior: When the server leaves a + room, it will insert new rows with `event_id = null` into the + `current_state_delta_stream` table for all current state. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + room_id1 = self.helper.create_room_as( + user2_id, + tok=user2_tok, + extra_content={ + "power_level_content_override": { + "users": { + user2_id: 100, + # Allow user1 to send state in the room + user1_id: 100, + } + } + }, + ) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + join_pos1 = self.get_success( + self.store.get_position_for_event(join_response1["event_id"]) + ) + # Make sure that random other non-member state that happens to have a `state_key` + # matching the user ID doesn't mess with things. + self.helper.send_state( + room_id1, + event_type="foobarbazdummy", + state_key=user1_id, + body={"foo": "bar"}, + tok=user1_tok, + ) + + # User2 should leave the room first. + self.helper.leave(room_id1, user2_id, tok=user2_tok) + + # User1 (the person we're testing with) should also leave the room (everyone has + # left the room which means the server is no longer in the room). + leave_response1 = self.helper.leave(room_id1, user1_id, tok=user1_tok) + leave_pos1 = self.get_success( + self.store.get_position_for_event(leave_response1["event_id"]) + ) + + after_room1_token = self.event_sources.get_current_token() + + # Get the membership changes for the user. + # + # At this point, the `current_state_delta_stream` table should look like the + # following. When the server leaves a room, it will insert new rows with + # `event_id = null` for all current state. + # + # | stream_id | room_id | type | state_key | event_id | prev_event_id | + # |-----------|-----------|-----------------------------|---------------|----------|---------------| + # | 2 | '!x:test' | 'm.room.create' | '' | '$xxx' | None | + # | 3 | '!x:test' | 'm.room.member' | '@user2:test' | '$aaa' | None | + # | 4 | '!x:test' | 'm.room.history_visibility' | '' | '$xxx' | None | + # | 4 | '!x:test' | 'm.room.join_rules' | '' | '$xxx' | None | + # | 4 | '!x:test' | 'm.room.power_levels' | '' | '$xxx' | None | + # | 7 | '!x:test' | 'm.room.member' | '@user1:test' | '$ooo' | None | + # | 8 | '!x:test' | 'foobarbazdummy' | '@user1:test' | '$xxx' | None | + # | 9 | '!x:test' | 'm.room.member' | '@user2:test' | '$bbb' | '$aaa' | + # | 10 | '!x:test' | 'foobarbazdummy' | '@user1:test' | None | '$xxx' | + # | 10 | '!x:test' | 'm.room.create' | '' | None | '$xxx' | + # | 10 | '!x:test' | 'm.room.history_visibility' | '' | None | '$xxx' | + # | 10 | '!x:test' | 'm.room.join_rules' | '' | None | '$xxx' | + # | 10 | '!x:test' | 'm.room.member' | '@user1:test' | None | '$ooo' | + # | 10 | '!x:test' | 'm.room.member' | '@user2:test' | None | '$bbb' | + # | 10 | '!x:test' | 'm.room.power_levels' | '' | None | '$xxx' | + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user1_id, + from_key=before_room1_token.room_key, + to_key=after_room1_token.room_key, + ) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [ + CurrentStateDeltaMembership( + event_id=join_response1["event_id"], + event_pos=join_pos1, + prev_event_id=None, + room_id=room_id1, + membership="join", + sender=user1_id, + state_reset=False, + ), + CurrentStateDeltaMembership( + event_id=leave_response1["event_id"], + event_pos=leave_pos1, + prev_event_id=join_response1["event_id"], + room_id=room_id1, + membership="leave", + sender=user1_id, + state_reset=False, + ), + ], + ) + + def test_membership_persisted_in_same_batch(self) -> None: + """ + Test batch of membership events being processed at once. This will result in all + of the memberships being stored in the `current_state_delta_stream` table with + the same `stream_ordering` even though the individual events have different + `stream_ordering`s. + """ + user1_id = self.register_user("user1", "pass") + _user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + user3_id = self.register_user("user3", "pass") + _user3_tok = self.login(user3_id, "pass") + user4_id = self.register_user("user4", "pass") + _user4_tok = self.login(user4_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + # User2 is just the designated person to create the room (we do this across the + # tests to be consistent) + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + + # Persist the user1, user3, and user4 join events in the same batch so they all + # end up in the `current_state_delta_stream` table with the same + # stream_ordering. + join_event1, join_event_context1 = self.get_success( + create_event( + self.hs, + sender=user1_id, + type=EventTypes.Member, + state_key=user1_id, + content={"membership": "join"}, + room_id=room_id1, + ) + ) + join_event3, join_event_context3 = self.get_success( + create_event( + self.hs, + sender=user3_id, + type=EventTypes.Member, + state_key=user3_id, + content={"membership": "join"}, + room_id=room_id1, + ) + ) + join_event4, join_event_context4 = self.get_success( + create_event( + self.hs, + sender=user4_id, + type=EventTypes.Member, + state_key=user4_id, + content={"membership": "join"}, + room_id=room_id1, + ) + ) + self.get_success( + self.persistence.persist_events( + [ + (join_event1, join_event_context1), + (join_event3, join_event_context3), + (join_event4, join_event_context4), + ] + ) + ) + + after_room1_token = self.event_sources.get_current_token() + + # Let's get membership changes from user3's perspective because it was in the + # middle of the batch. This way, if rows in` current_state_delta_stream` are + # stored with the first or last event's `stream_ordering`, we will still catch + # bugs. + # + # At this point, the `current_state_delta_stream` table should look like (notice + # those three memberships at the end with `stream_id=7` because we persisted + # them in the same batch): + # + # | stream_id | room_id | type | state_key | event_id | prev_event_id | + # |-----------|-----------|----------------------------|------------------|----------|---------------| + # | 2 | '!x:test' | 'm.room.create' | '' | '$xxx' | None | + # | 3 | '!x:test' | 'm.room.member' | '@user2:test' | '$xxx' | None | + # | 4 | '!x:test' | 'm.room.history_visibility'| '' | '$xxx' | None | + # | 4 | '!x:test' | 'm.room.join_rules' | '' | '$xxx' | None | + # | 4 | '!x:test' | 'm.room.power_levels' | '' | '$xxx' | None | + # | 7 | '!x:test' | 'm.room.member' | '@user3:test' | '$xxx' | None | + # | 7 | '!x:test' | 'm.room.member' | '@user1:test' | '$xxx' | None | + # | 7 | '!x:test' | 'm.room.member' | '@user4:test' | '$xxx' | None | + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user3_id, + from_key=before_room1_token.room_key, + to_key=after_room1_token.room_key, + ) + ) + + join_pos3 = self.get_success( + self.store.get_position_for_event(join_event3.event_id) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [ + CurrentStateDeltaMembership( + event_id=join_event3.event_id, + event_pos=join_pos3, + prev_event_id=None, + room_id=room_id1, + membership="join", + sender=user3_id, + state_reset=False, + ), + ], + ) + + def test_state_reset(self) -> None: + """ + Test a state reset scenario where the user gets removed from the room (when + there is no corresponding leave event) + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + + before_reset_token = self.event_sources.get_current_token() + + # Send another state event to make a position for the state reset to happen at + dummy_state_response = self.helper.send_state( + room_id1, + event_type="foobarbaz", + state_key="", + body={"foo": "bar"}, + tok=user2_tok, + ) + dummy_state_pos = self.get_success( + self.store.get_position_for_event(dummy_state_response["event_id"]) + ) + + # Mock a state reset removing the membership for user1 in the current state + self.get_success( + self.store.db_pool.simple_delete( + table="current_state_events", + keyvalues={ + "room_id": room_id1, + "type": EventTypes.Member, + "state_key": user1_id, + }, + desc="state reset user in current_state_delta_stream", + ) + ) + self.get_success( + self.store.db_pool.simple_insert( + table="current_state_delta_stream", + values={ + "stream_id": dummy_state_pos.stream, + "room_id": room_id1, + "type": EventTypes.Member, + "state_key": user1_id, + "event_id": None, + "prev_event_id": join_response1["event_id"], + "instance_name": dummy_state_pos.instance_name, + }, + desc="state reset user in current_state_delta_stream", + ) + ) + + # Manually bust the cache since we we're just manually messing with the database + # and not causing an actual state reset. + self.store._membership_stream_cache.entity_has_changed( + user1_id, dummy_state_pos.stream + ) + + after_reset_token = self.event_sources.get_current_token() + + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user1_id, + from_key=before_reset_token.room_key, + to_key=after_reset_token.room_key, + ) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [ + CurrentStateDeltaMembership( + event_id=None, + event_pos=dummy_state_pos, + prev_event_id=join_response1["event_id"], + room_id=room_id1, + membership="leave", + sender=None, # user1_id, + state_reset=True, + ), + ], + ) + + def test_excluded_room_ids(self) -> None: + """ + Test that the `excluded_room_ids` option excludes changes from the specified rooms. + """ + user1_id = self.register_user("user1", "pass") + user1_tok = self.login(user1_id, "pass") + user2_id = self.register_user("user2", "pass") + user2_tok = self.login(user2_id, "pass") + + before_room1_token = self.event_sources.get_current_token() + + room_id1 = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response1 = self.helper.join(room_id1, user1_id, tok=user1_tok) + join_pos1 = self.get_success( + self.store.get_position_for_event(join_response1["event_id"]) + ) + + room_id2 = self.helper.create_room_as(user2_id, tok=user2_tok) + join_response2 = self.helper.join(room_id2, user1_id, tok=user1_tok) + join_pos2 = self.get_success( + self.store.get_position_for_event(join_response2["event_id"]) + ) + + after_room1_token = self.event_sources.get_current_token() + + # First test the the room is returned without the `excluded_room_ids` option + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user1_id, + from_key=before_room1_token.room_key, + to_key=after_room1_token.room_key, + ) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [ + CurrentStateDeltaMembership( + event_id=join_response1["event_id"], + event_pos=join_pos1, + prev_event_id=None, + room_id=room_id1, + membership="join", + sender=user1_id, + state_reset=False, + ), + CurrentStateDeltaMembership( + event_id=join_response2["event_id"], + event_pos=join_pos2, + prev_event_id=None, + room_id=room_id2, + membership="join", + sender=user1_id, + state_reset=False, + ), + ], + ) + + # The test that `excluded_room_ids` excludes room2 as expected + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user1_id, + from_key=before_room1_token.room_key, + to_key=after_room1_token.room_key, + excluded_room_ids=[room_id2], + ) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [ + CurrentStateDeltaMembership( + event_id=join_response1["event_id"], + event_pos=join_pos1, + prev_event_id=None, + room_id=room_id1, + membership="join", + sender=user1_id, + state_reset=False, + ) + ], + ) + + +class GetCurrentStateDeltaMembershipChangesForUserFederationTestCase( + FederatingHomeserverTestCase +): + """ + Test `get_current_state_delta_membership_changes_for_user(...)` when joining remote federated rooms. + """ + + servlets = [ + admin.register_servlets_for_client_rest_resource, + room.register_servlets, + login.register_servlets, + ] + + def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None: + self.sliding_sync_handler = self.hs.get_sliding_sync_handler() + self.store = self.hs.get_datastores().main + self.event_sources = hs.get_event_sources() + self.room_member_handler = hs.get_room_member_handler() + + def test_remote_join(self) -> None: + """ + Test remote join where the first rows in `current_state_delta_stream` will just + be the state when you joined the remote room. + """ + user1_id = self.register_user("user1", "pass") + _user1_tok = self.login(user1_id, "pass") + + before_join_token = self.event_sources.get_current_token() + + intially_unjoined_room_id = f"!example:{self.OTHER_SERVER_NAME}" + + # Remotely join a room on another homeserver. + # + # To do this we have to mock the responses from the remote homeserver. We also + # patch out a bunch of event checks on our end. + create_event_source = { + "auth_events": [], + "content": { + "creator": f"@creator:{self.OTHER_SERVER_NAME}", + "room_version": self.hs.config.server.default_room_version.identifier, + }, + "depth": 0, + "origin_server_ts": 0, + "prev_events": [], + "room_id": intially_unjoined_room_id, + "sender": f"@creator:{self.OTHER_SERVER_NAME}", + "state_key": "", + "type": EventTypes.Create, + } + self.add_hashes_and_signatures_from_other_server( + create_event_source, + self.hs.config.server.default_room_version, + ) + create_event = FrozenEventV3( + create_event_source, + self.hs.config.server.default_room_version, + {}, + None, + ) + creator_join_event_source = { + "auth_events": [create_event.event_id], + "content": { + "membership": "join", + }, + "depth": 1, + "origin_server_ts": 1, + "prev_events": [], + "room_id": intially_unjoined_room_id, + "sender": f"@creator:{self.OTHER_SERVER_NAME}", + "state_key": f"@creator:{self.OTHER_SERVER_NAME}", + "type": EventTypes.Member, + } + self.add_hashes_and_signatures_from_other_server( + creator_join_event_source, + self.hs.config.server.default_room_version, + ) + creator_join_event = FrozenEventV3( + creator_join_event_source, + self.hs.config.server.default_room_version, + {}, + None, + ) + + # Our local user is going to remote join the room + join_event_source = { + "auth_events": [create_event.event_id], + "content": {"membership": "join"}, + "depth": 1, + "origin_server_ts": 100, + "prev_events": [creator_join_event.event_id], + "sender": user1_id, + "state_key": user1_id, + "room_id": intially_unjoined_room_id, + "type": EventTypes.Member, + } + add_hashes_and_signatures( + self.hs.config.server.default_room_version, + join_event_source, + self.hs.hostname, + self.hs.signing_key, + ) + join_event = FrozenEventV3( + join_event_source, + self.hs.config.server.default_room_version, + {}, + None, + ) + + mock_make_membership_event = AsyncMock( + return_value=( + self.OTHER_SERVER_NAME, + join_event, + self.hs.config.server.default_room_version, + ) + ) + mock_send_join = AsyncMock( + return_value=SendJoinResult( + join_event, + self.OTHER_SERVER_NAME, + state=[create_event, creator_join_event], + auth_chain=[create_event, creator_join_event], + partial_state=False, + servers_in_room=frozenset(), + ) + ) + + with patch.object( + self.room_member_handler.federation_handler.federation_client, + "make_membership_event", + mock_make_membership_event, + ), patch.object( + self.room_member_handler.federation_handler.federation_client, + "send_join", + mock_send_join, + ), patch( + "synapse.event_auth._is_membership_change_allowed", + return_value=None, + ), patch( + "synapse.handlers.federation_event.check_state_dependent_auth_rules", + return_value=None, + ): + self.get_success( + self.room_member_handler.update_membership( + requester=create_requester(user1_id), + target=UserID.from_string(user1_id), + room_id=intially_unjoined_room_id, + action=Membership.JOIN, + remote_room_hosts=[self.OTHER_SERVER_NAME], + ) + ) + + after_join_token = self.event_sources.get_current_token() + + # Get the membership changes for the user. + # + # At this point, the `current_state_delta_stream` table should look like the + # following. Notice that all of the events are at the same `stream_id` because + # the current state starts out where we remotely joined: + # + # | stream_id | room_id | type | state_key | event_id | prev_event_id | + # |-----------|------------------------------|-----------------|------------------------------|----------|---------------| + # | 2 | '!example:other.example.com' | 'm.room.member' | '@user1:test' | '$xxx' | None | + # | 2 | '!example:other.example.com' | 'm.room.create' | '' | '$xxx' | None | + # | 2 | '!example:other.example.com' | 'm.room.member' | '@creator:other.example.com' | '$xxx' | None | + membership_changes = self.get_success( + self.store.get_current_state_delta_membership_changes_for_user( + user1_id, + from_key=before_join_token.room_key, + to_key=after_join_token.room_key, + ) + ) + + join_pos = self.get_success( + self.store.get_position_for_event(join_event.event_id) + ) + + # Let the whole diff show on failure + self.maxDiff = None + self.assertEqual( + membership_changes, + [ + CurrentStateDeltaMembership( + event_id=join_event.event_id, + event_pos=join_pos, + prev_event_id=None, + room_id=intially_unjoined_room_id, + membership="join", + sender=user1_id, + state_reset=False, + ), + ], + )