# Copyright 2014 - 2016 OpenMarket Ltd # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import logging from typing import ( Awaitable, Callable, Collection, Dict, Iterable, List, Optional, Set, Tuple, TypeVar, Union, ) import attr from prometheus_client import Counter from twisted.internet import defer import synapse.server from synapse.api.constants import EventTypes, HistoryVisibility, Membership from synapse.api.errors import AuthError from synapse.events import EventBase from synapse.handlers.presence import format_user_presence_state from synapse.logging import issue9533_logger from synapse.logging.context import PreserveLoggingContext from synapse.logging.opentracing import log_kv, start_active_span from synapse.metrics import LaterGauge from synapse.streams.config import PaginationConfig from synapse.types import ( JsonDict, PersistedEventPosition, RoomStreamToken, StreamToken, UserID, ) from synapse.util.async_helpers import ObservableDeferred, timeout_deferred from synapse.util.metrics import Measure from synapse.visibility import filter_events_for_client logger = logging.getLogger(__name__) notified_events_counter = Counter("synapse_notifier_notified_events", "") users_woken_by_stream_counter = Counter( "synapse_notifier_users_woken_by_stream", "", ["stream"] ) T = TypeVar("T") # TODO(paul): Should be shared somewhere def count(func: Callable[[T], bool], it: Iterable[T]) -> int: """Return the number of items in it for which func returns true.""" n = 0 for x in it: if func(x): n += 1 return n class _NotificationListener: """This represents a single client connection to the events stream. The events stream handler will have yielded to the deferred, so to notify the handler it is sufficient to resolve the deferred. """ __slots__ = ["deferred"] def __init__(self, deferred): self.deferred = deferred class _NotifierUserStream: """This represents a user connected to the event stream. It tracks the most recent stream token for that user. At a given point a user may have a number of streams listening for events. This listener will also keep track of which rooms it is listening in so that it can remove itself from the indexes in the Notifier class. """ def __init__( self, user_id: str, rooms: Collection[str], current_token: StreamToken, time_now_ms: int, ): self.user_id = user_id self.rooms = set(rooms) self.current_token = current_token # The last token for which we should wake up any streams that have a # token that comes before it. This gets updated every time we get poked. # We start it at the current token since if we get any streams # that have a token from before we have no idea whether they should be # woken up or not, so lets just wake them up. self.last_notified_token = current_token self.last_notified_ms = time_now_ms self.notify_deferred: ObservableDeferred[StreamToken] = ObservableDeferred( defer.Deferred() ) def notify( self, stream_key: str, stream_id: Union[int, RoomStreamToken], time_now_ms: int, ): """Notify any listeners for this user of a new event from an event source. Args: stream_key: The stream the event came from. stream_id: The new id for the stream the event came from. time_now_ms: The current time in milliseconds. """ self.current_token = self.current_token.copy_and_advance(stream_key, stream_id) self.last_notified_token = self.current_token self.last_notified_ms = time_now_ms noify_deferred = self.notify_deferred log_kv( { "notify": self.user_id, "stream": stream_key, "stream_id": stream_id, "listeners": self.count_listeners(), } ) users_woken_by_stream_counter.labels(stream_key).inc() with PreserveLoggingContext(): self.notify_deferred = ObservableDeferred(defer.Deferred()) noify_deferred.callback(self.current_token) def remove(self, notifier: "Notifier"): """Remove this listener from all the indexes in the Notifier it knows about. """ for room in self.rooms: lst = notifier.room_to_user_streams.get(room, set()) lst.discard(self) notifier.user_to_user_stream.pop(self.user_id) def count_listeners(self) -> int: return len(self.notify_deferred.observers()) def new_listener(self, token: StreamToken) -> _NotificationListener: """Returns a deferred that is resolved when there is a new token greater than the given token. Args: token: The token from which we are streaming from, i.e. we shouldn't notify for things that happened before this. """ # Immediately wake up stream if something has already since happened # since their last token. if self.last_notified_token != token: return _NotificationListener(defer.succeed(self.current_token)) else: return _NotificationListener(self.notify_deferred.observe()) @attr.s(slots=True, frozen=True, auto_attribs=True) class EventStreamResult: events: List[Union[JsonDict, EventBase]] start_token: StreamToken end_token: StreamToken def __bool__(self): return bool(self.events) @attr.s(slots=True, frozen=True, auto_attribs=True) class _PendingRoomEventEntry: event_pos: PersistedEventPosition extra_users: Collection[UserID] room_id: str type: str state_key: Optional[str] membership: Optional[str] class Notifier: """This class is responsible for notifying any listeners when there are new events available for it. Primarily used from the /events stream. """ UNUSED_STREAM_EXPIRY_MS = 10 * 60 * 1000 def __init__(self, hs: "synapse.server.HomeServer"): self.user_to_user_stream: Dict[str, _NotifierUserStream] = {} self.room_to_user_streams: Dict[str, Set[_NotifierUserStream]] = {} self.hs = hs self.storage = hs.get_storage() self.event_sources = hs.get_event_sources() self.store = hs.get_datastore() self.pending_new_room_events: List[_PendingRoomEventEntry] = [] # Called when there are new things to stream over replication self.replication_callbacks: List[Callable[[], None]] = [] # Called when remote servers have come back online after having been # down. self.remote_server_up_callbacks: List[Callable[[str], None]] = [] self._third_party_rules = hs.get_third_party_event_rules() self.clock = hs.get_clock() self.appservice_handler = hs.get_application_service_handler() self._pusher_pool = hs.get_pusherpool() self.federation_sender = None if hs.should_send_federation(): self.federation_sender = hs.get_federation_sender() self.state_handler = hs.get_state_handler() self.clock.looping_call( self.remove_expired_streams, self.UNUSED_STREAM_EXPIRY_MS ) # This is not a very cheap test to perform, but it's only executed # when rendering the metrics page, which is likely once per minute at # most when scraping it. def count_listeners(): all_user_streams: Set[_NotifierUserStream] = set() for streams in list(self.room_to_user_streams.values()): all_user_streams |= streams for stream in list(self.user_to_user_stream.values()): all_user_streams.add(stream) return sum(stream.count_listeners() for stream in all_user_streams) LaterGauge("synapse_notifier_listeners", "", [], count_listeners) LaterGauge( "synapse_notifier_rooms", "", [], lambda: count(bool, list(self.room_to_user_streams.values())), ) LaterGauge( "synapse_notifier_users", "", [], lambda: len(self.user_to_user_stream) ) def add_replication_callback(self, cb: Callable[[], None]): """Add a callback that will be called when some new data is available. Callback is not given any arguments. It should *not* return a Deferred - if it needs to do any asynchronous work, a background thread should be started and wrapped with run_as_background_process. """ self.replication_callbacks.append(cb) async def on_new_room_event( self, event: EventBase, event_pos: PersistedEventPosition, max_room_stream_token: RoomStreamToken, extra_users: Optional[Collection[UserID]] = None, ): """Unwraps event and calls `on_new_room_event_args`.""" await self.on_new_room_event_args( event_pos=event_pos, room_id=event.room_id, event_id=event.event_id, event_type=event.type, state_key=event.get("state_key"), membership=event.content.get("membership"), max_room_stream_token=max_room_stream_token, extra_users=extra_users or [], ) async def on_new_room_event_args( self, room_id: str, event_id: str, event_type: str, state_key: Optional[str], membership: Optional[str], event_pos: PersistedEventPosition, max_room_stream_token: RoomStreamToken, extra_users: Optional[Collection[UserID]] = None, ): """Used by handlers to inform the notifier something has happened in the room, room event wise. This triggers the notifier to wake up any listeners that are listening to the room, and any listeners for the users in the `extra_users` param. This also notifies modules listening on new events via the `on_new_event` callback. The events can be persisted out of order. The notifier will wait until all previous events have been persisted before notifying the client streams. """ self.pending_new_room_events.append( _PendingRoomEventEntry( event_pos=event_pos, extra_users=extra_users or [], room_id=room_id, type=event_type, state_key=state_key, membership=membership, ) ) self._notify_pending_new_room_events(max_room_stream_token) await self._third_party_rules.on_new_event(event_id) self.notify_replication() def _notify_pending_new_room_events(self, max_room_stream_token: RoomStreamToken): """Notify for the room events that were queued waiting for a previous event to be persisted. Args: max_room_stream_token: The highest stream_id below which all events have been persisted. """ pending = self.pending_new_room_events self.pending_new_room_events = [] users: Set[UserID] = set() rooms: Set[str] = set() for entry in pending: if entry.event_pos.persisted_after(max_room_stream_token): self.pending_new_room_events.append(entry) else: if ( entry.type == EventTypes.Member and entry.membership == Membership.JOIN and entry.state_key ): self._user_joined_room(entry.state_key, entry.room_id) users.update(entry.extra_users) rooms.add(entry.room_id) if users or rooms: self.on_new_event( "room_key", max_room_stream_token, users=users, rooms=rooms, ) self._on_updated_room_token(max_room_stream_token) def _on_updated_room_token(self, max_room_stream_token: RoomStreamToken): """Poke services that might care that the room position has been updated. """ # poke any interested application service. self._notify_app_services(max_room_stream_token) self._notify_pusher_pool(max_room_stream_token) if self.federation_sender: self.federation_sender.notify_new_events(max_room_stream_token) def _notify_app_services(self, max_room_stream_token: RoomStreamToken): try: self.appservice_handler.notify_interested_services(max_room_stream_token) except Exception: logger.exception("Error notifying application services of event") def _notify_pusher_pool(self, max_room_stream_token: RoomStreamToken): try: self._pusher_pool.on_new_notifications(max_room_stream_token) except Exception: logger.exception("Error pusher pool of event") def on_new_event( self, stream_key: str, new_token: Union[int, RoomStreamToken], users: Optional[Collection[Union[str, UserID]]] = None, rooms: Optional[Collection[str]] = None, ) -> None: """Used to inform listeners that something has happened event wise. Will wake up all listeners for the given users and rooms. Args: stream_key: The stream the event came from. new_token: The value of the new stream token. users: The users that should be informed of the new event. rooms: A collection of room IDs for which each joined member will be informed of the new event. """ users = users or [] rooms = rooms or [] with Measure(self.clock, "on_new_event"): user_streams = set() log_kv( { "waking_up_explicit_users": len(users), "waking_up_explicit_rooms": len(rooms), } ) for user in users: user_stream = self.user_to_user_stream.get(str(user)) if user_stream is not None: user_streams.add(user_stream) for room in rooms: user_streams |= self.room_to_user_streams.get(room, set()) if stream_key == "to_device_key": issue9533_logger.debug( "to-device messages stream id %s, awaking streams for %s", new_token, users, ) time_now_ms = self.clock.time_msec() for user_stream in user_streams: try: user_stream.notify(stream_key, new_token, time_now_ms) except Exception: logger.exception("Failed to notify listener") self.notify_replication() # Notify appservices. try: self.appservice_handler.notify_interested_services_ephemeral( stream_key, new_token, [UserID.from_string(user_stream.user_id) for user_stream in user_streams], ) except Exception: logger.exception( "Error notifying application services of ephemeral events" ) def on_new_replication_data(self) -> None: """Used to inform replication listeners that something has happened without waking up any of the normal user event streams""" self.notify_replication() async def wait_for_events( self, user_id: str, timeout: int, callback: Callable[[StreamToken, StreamToken], Awaitable[T]], room_ids=None, from_token=StreamToken.START, ) -> T: """Wait until the callback returns a non empty response or the timeout fires. """ user_stream = self.user_to_user_stream.get(user_id) if user_stream is None: current_token = self.event_sources.get_current_token() if room_ids is None: room_ids = await self.store.get_rooms_for_user(user_id) user_stream = _NotifierUserStream( user_id=user_id, rooms=room_ids, current_token=current_token, time_now_ms=self.clock.time_msec(), ) self._register_with_keys(user_stream) result = None prev_token = from_token if timeout: end_time = self.clock.time_msec() + timeout while not result: with start_active_span("wait_for_events"): try: now = self.clock.time_msec() if end_time <= now: break # Now we wait for the _NotifierUserStream to be told there # is a new token. listener = user_stream.new_listener(prev_token) listener.deferred = timeout_deferred( listener.deferred, (end_time - now) / 1000.0, self.hs.get_reactor(), ) log_kv( { "wait_for_events": "sleep", "token": prev_token, } ) with PreserveLoggingContext(): await listener.deferred log_kv( { "wait_for_events": "woken", "token": user_stream.current_token, } ) current_token = user_stream.current_token result = await callback(prev_token, current_token) log_kv( { "wait_for_events": "result", "result": bool(result), } ) if result: break # Update the prev_token to the current_token since nothing # has happened between the old prev_token and the current_token prev_token = current_token except defer.TimeoutError: log_kv({"wait_for_events": "timeout"}) break except defer.CancelledError: log_kv({"wait_for_events": "cancelled"}) break if result is None: # This happened if there was no timeout or if the timeout had # already expired. current_token = user_stream.current_token result = await callback(prev_token, current_token) return result async def get_events_for( self, user: UserID, pagination_config: PaginationConfig, timeout: int, is_guest: bool = False, explicit_room_id: Optional[str] = None, ) -> EventStreamResult: """For the given user and rooms, return any new events for them. If there are no new events wait for up to `timeout` milliseconds for any new events to happen before returning. If explicit_room_id is not set, the user's joined rooms will be polled for events. If explicit_room_id is set, that room will be polled for events only if it is world readable or the user has joined the room. """ if pagination_config.from_token: from_token = pagination_config.from_token else: from_token = self.event_sources.get_current_token() limit = pagination_config.limit room_ids, is_joined = await self._get_room_ids(user, explicit_room_id) is_peeking = not is_joined async def check_for_updates( before_token: StreamToken, after_token: StreamToken ) -> EventStreamResult: if after_token == before_token: return EventStreamResult([], from_token, from_token) # The events fetched from each source are a JsonDict, EventBase, or # UserPresenceState, but see below for UserPresenceState being # converted to JsonDict. events: List[Union[JsonDict, EventBase]] = [] end_token = from_token for name, source in self.event_sources.sources.get_sources(): keyname = "%s_key" % name before_id = getattr(before_token, keyname) after_id = getattr(after_token, keyname) if before_id == after_id: continue new_events, new_key = await source.get_new_events( user=user, from_key=getattr(from_token, keyname), limit=limit, is_guest=is_peeking, room_ids=room_ids, explicit_room_id=explicit_room_id, ) if name == "room": new_events = await filter_events_for_client( self.storage, user.to_string(), new_events, is_peeking=is_peeking, ) elif name == "presence": now = self.clock.time_msec() new_events[:] = [ { "type": "m.presence", "content": format_user_presence_state(event, now), } for event in new_events ] events.extend(new_events) end_token = end_token.copy_and_replace(keyname, new_key) return EventStreamResult(events, from_token, end_token) user_id_for_stream = user.to_string() if is_peeking: # Internally, the notifier keeps an event stream per user_id. # This is used by both /sync and /events. # We want /events to be used for peeking independently of /sync, # without polluting its contents. So we invent an illegal user ID # (which thus cannot clash with any real users) for keying peeking # over /events. # # I am sorry for what I have done. user_id_for_stream = "_PEEKING_%s_%s" % ( explicit_room_id, user_id_for_stream, ) result = await self.wait_for_events( user_id_for_stream, timeout, check_for_updates, room_ids=room_ids, from_token=from_token, ) return result async def _get_room_ids( self, user: UserID, explicit_room_id: Optional[str] ) -> Tuple[Collection[str], bool]: joined_room_ids = await self.store.get_rooms_for_user(user.to_string()) if explicit_room_id: if explicit_room_id in joined_room_ids: return [explicit_room_id], True if await self._is_world_readable(explicit_room_id): return [explicit_room_id], False raise AuthError(403, "Non-joined access not allowed") return joined_room_ids, True async def _is_world_readable(self, room_id: str) -> bool: state = await self.state_handler.get_current_state( room_id, EventTypes.RoomHistoryVisibility, "" ) if state and "history_visibility" in state.content: return ( state.content["history_visibility"] == HistoryVisibility.WORLD_READABLE ) else: return False def remove_expired_streams(self) -> None: time_now_ms = self.clock.time_msec() expired_streams = [] expire_before_ts = time_now_ms - self.UNUSED_STREAM_EXPIRY_MS for stream in self.user_to_user_stream.values(): if stream.count_listeners(): continue if stream.last_notified_ms < expire_before_ts: expired_streams.append(stream) for expired_stream in expired_streams: expired_stream.remove(self) def _register_with_keys(self, user_stream: _NotifierUserStream): self.user_to_user_stream[user_stream.user_id] = user_stream for room in user_stream.rooms: s = self.room_to_user_streams.setdefault(room, set()) s.add(user_stream) def _user_joined_room(self, user_id: str, room_id: str): new_user_stream = self.user_to_user_stream.get(user_id) if new_user_stream is not None: room_streams = self.room_to_user_streams.setdefault(room_id, set()) room_streams.add(new_user_stream) new_user_stream.rooms.add(room_id) def notify_replication(self) -> None: """Notify the any replication listeners that there's a new event""" for cb in self.replication_callbacks: cb() def notify_remote_server_up(self, server: str): """Notify any replication that a remote server has come back up""" # We call federation_sender directly rather than registering as a # callback as a) we already have a reference to it and b) it introduces # circular dependencies. if self.federation_sender: self.federation_sender.wake_destination(server)