// Copyright 2017 Vector Creations 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. package consumers import ( "context" "encoding/json" "fmt" "github.com/Shopify/sarama" "github.com/matrix-org/dendrite/federationapi/queue" "github.com/matrix-org/dendrite/federationapi/storage" "github.com/matrix-org/dendrite/federationapi/types" "github.com/matrix-org/dendrite/internal" "github.com/matrix-org/dendrite/roomserver/api" "github.com/matrix-org/dendrite/setup/config" "github.com/matrix-org/dendrite/setup/process" "github.com/matrix-org/gomatrixserverlib" log "github.com/sirupsen/logrus" ) // OutputRoomEventConsumer consumes events that originated in the room server. type OutputRoomEventConsumer struct { cfg *config.FederationAPI rsAPI api.RoomserverInternalAPI rsConsumer *internal.ContinualConsumer db storage.Database queues *queue.OutgoingQueues } // NewOutputRoomEventConsumer creates a new OutputRoomEventConsumer. Call Start() to begin consuming from room servers. func NewOutputRoomEventConsumer( process *process.ProcessContext, cfg *config.FederationAPI, kafkaConsumer sarama.Consumer, queues *queue.OutgoingQueues, store storage.Database, rsAPI api.RoomserverInternalAPI, ) *OutputRoomEventConsumer { consumer := internal.ContinualConsumer{ Process: process, ComponentName: "federationapi/roomserver", Topic: string(cfg.Matrix.Kafka.TopicFor(config.TopicOutputRoomEvent)), Consumer: kafkaConsumer, PartitionStore: store, } s := &OutputRoomEventConsumer{ cfg: cfg, rsConsumer: &consumer, db: store, queues: queues, rsAPI: rsAPI, } consumer.ProcessMessage = s.onMessage return s } // Start consuming from room servers func (s *OutputRoomEventConsumer) Start() error { return s.rsConsumer.Start() } // onMessage is called when the federation server receives a new event from the room server output log. // It is unsafe to call this with messages for the same room in multiple gorountines // because updates it will likely fail with a types.EventIDMismatchError when it // realises that it cannot update the room state using the deltas. func (s *OutputRoomEventConsumer) onMessage(msg *sarama.ConsumerMessage) error { // Parse out the event JSON var output api.OutputEvent if err := json.Unmarshal(msg.Value, &output); err != nil { // If the message was invalid, log it and move on to the next message in the stream log.WithError(err).Errorf("roomserver output log: message parse failure") return nil } switch output.Type { case api.OutputTypeNewRoomEvent: ev := output.NewRoomEvent.Event if output.NewRoomEvent.RewritesState { if err := s.db.PurgeRoomState(context.TODO(), ev.RoomID()); err != nil { return fmt.Errorf("s.db.PurgeRoom: %w", err) } } if err := s.processMessage(*output.NewRoomEvent); err != nil { switch err.(type) { case *queue.ErrorFederationDisabled: log.WithField("error", output.Type).Info( err.Error(), ) default: // panic rather than continue with an inconsistent database log.WithFields(log.Fields{ "event_id": ev.EventID(), "event": string(ev.JSON()), "add": output.NewRoomEvent.AddsStateEventIDs, "del": output.NewRoomEvent.RemovesStateEventIDs, log.ErrorKey: err, }).Panicf("roomserver output log: write room event failure") } return nil } case api.OutputTypeNewInboundPeek: if err := s.processInboundPeek(*output.NewInboundPeek); err != nil { log.WithFields(log.Fields{ "event": output.NewInboundPeek, log.ErrorKey: err, }).Panicf("roomserver output log: remote peek event failure") return nil } default: log.WithField("type", output.Type).Debug( "roomserver output log: ignoring unknown output type", ) return nil } return nil } // processInboundPeek starts tracking a new federated inbound peek (replacing the existing one if any) // causing the federationapi to start sending messages to the peeking server func (s *OutputRoomEventConsumer) processInboundPeek(orp api.OutputNewInboundPeek) error { // FIXME: there's a race here - we should start /sending new peeked events // atomically after the orp.LatestEventID to ensure there are no gaps between // the peek beginning and the send stream beginning. // // We probably need to track orp.LatestEventID on the inbound peek, but it's // unclear how we then use that to prevent the race when we start the send // stream. // // This is making the tests flakey. return s.db.AddInboundPeek(context.TODO(), orp.ServerName, orp.RoomID, orp.PeekID, orp.RenewalInterval) } // processMessage updates the list of currently joined hosts in the room // and then sends the event to the hosts that were joined before the event. func (s *OutputRoomEventConsumer) processMessage(ore api.OutputNewRoomEvent) error { addsJoinedHosts, err := joinedHostsFromEvents(gomatrixserverlib.UnwrapEventHeaders(ore.AddsState())) if err != nil { return err } // Update our copy of the current state. // We keep a copy of the current state because the state at each event is // expressed as a delta against the current state. // TODO(#290): handle EventIDMismatchError and recover the current state by // talking to the roomserver oldJoinedHosts, err := s.db.UpdateRoom( context.TODO(), ore.Event.RoomID(), ore.LastSentEventID, ore.Event.EventID(), addsJoinedHosts, ore.RemovesStateEventIDs, ) if err != nil { return err } if oldJoinedHosts == nil { // This means that there is nothing to update as this is a duplicate // message. // This can happen if dendrite crashed between reading the message and // persisting the stream position. return nil } if ore.SendAsServer == api.DoNotSendToOtherServers { // Ignore event that we don't need to send anywhere. return nil } // Work out which hosts were joined at the event itself. joinedHostsAtEvent, err := s.joinedHostsAtEvent(ore, oldJoinedHosts) if err != nil { return err } // TODO: do housekeeping to evict unrenewed peeking hosts // TODO: implement query to let the fedapi check whether a given peek is live or not // Send the event. return s.queues.SendEvent( ore.Event, gomatrixserverlib.ServerName(ore.SendAsServer), joinedHostsAtEvent, ) } // joinedHostsAtEvent works out a list of matrix servers that were joined to // the room at the event (including peeking ones) // It is important to use the state at the event for sending messages because: // 1) We shouldn't send messages to servers that weren't in the room. // 2) If a server is kicked from the rooms it should still be told about the // kick event, // Usually the list can be calculated locally, but sometimes it will need fetch // events from the room server. // Returns an error if there was a problem talking to the room server. func (s *OutputRoomEventConsumer) joinedHostsAtEvent( ore api.OutputNewRoomEvent, oldJoinedHosts []types.JoinedHost, ) ([]gomatrixserverlib.ServerName, error) { // Combine the delta into a single delta so that the adds and removes can // cancel each other out. This should reduce the number of times we need // to fetch a state event from the room server. combinedAdds, combinedRemoves := combineDeltas( ore.AddsStateEventIDs, ore.RemovesStateEventIDs, ore.StateBeforeAddsEventIDs, ore.StateBeforeRemovesEventIDs, ) combinedAddsEvents, err := s.lookupStateEvents(combinedAdds, ore.Event.Event) if err != nil { return nil, err } combinedAddsJoinedHosts, err := joinedHostsFromEvents(combinedAddsEvents) if err != nil { return nil, err } removed := map[string]bool{} for _, eventID := range combinedRemoves { removed[eventID] = true } joined := map[gomatrixserverlib.ServerName]bool{} for _, joinedHost := range oldJoinedHosts { if removed[joinedHost.MemberEventID] { // This m.room.member event is part of the current state of the // room, but not part of the state at the event we are processing // Therefore we can't use it to tell whether the server was in // the room at the event. continue } joined[joinedHost.ServerName] = true } for _, joinedHost := range combinedAddsJoinedHosts { // This m.room.member event was part of the state of the room at the // event, but isn't part of the current state of the room now. joined[joinedHost.ServerName] = true } // handle peeking hosts inboundPeeks, err := s.db.GetInboundPeeks(context.TODO(), ore.Event.Event.RoomID()) if err != nil { return nil, err } for _, inboundPeek := range inboundPeeks { joined[inboundPeek.ServerName] = true } var result []gomatrixserverlib.ServerName for serverName, include := range joined { if include { result = append(result, serverName) } } return result, nil } // joinedHostsFromEvents turns a list of state events into a list of joined hosts. // This errors if one of the events was invalid. // It should be impossible for an invalid event to get this far in the pipeline. func joinedHostsFromEvents(evs []*gomatrixserverlib.Event) ([]types.JoinedHost, error) { var joinedHosts []types.JoinedHost for _, ev := range evs { if ev.Type() != "m.room.member" || ev.StateKey() == nil { continue } membership, err := ev.Membership() if err != nil { return nil, err } if membership != gomatrixserverlib.Join { continue } _, serverName, err := gomatrixserverlib.SplitID('@', *ev.StateKey()) if err != nil { return nil, err } joinedHosts = append(joinedHosts, types.JoinedHost{ MemberEventID: ev.EventID(), ServerName: serverName, }) } return joinedHosts, nil } // combineDeltas combines two deltas into a single delta. // Assumes that the order of operations is add(1), remove(1), add(2), remove(2). // Removes duplicate entries and redundant operations from each delta. func combineDeltas(adds1, removes1, adds2, removes2 []string) (adds, removes []string) { addSet := map[string]bool{} removeSet := map[string]bool{} // combine processes each unique value in a list. // If the value is in the removeFrom set then it is removed from that set. // Otherwise it is added to the addTo set. combine := func(values []string, removeFrom, addTo map[string]bool) { processed := map[string]bool{} for _, value := range values { if processed[value] { continue } processed[value] = true if removeFrom[value] { delete(removeFrom, value) } else { addTo[value] = true } } } combine(adds1, nil, addSet) combine(removes1, addSet, removeSet) combine(adds2, removeSet, addSet) combine(removes2, addSet, removeSet) for value := range addSet { adds = append(adds, value) } for value := range removeSet { removes = append(removes, value) } return } // lookupStateEvents looks up the state events that are added by a new event. func (s *OutputRoomEventConsumer) lookupStateEvents( addsStateEventIDs []string, event *gomatrixserverlib.Event, ) ([]*gomatrixserverlib.Event, error) { // Fast path if there aren't any new state events. if len(addsStateEventIDs) == 0 { return nil, nil } // Fast path if the only state event added is the event itself. if len(addsStateEventIDs) == 1 && addsStateEventIDs[0] == event.EventID() { return []*gomatrixserverlib.Event{event}, nil } missing := addsStateEventIDs var result []*gomatrixserverlib.Event // Check if event itself is being added. for _, eventID := range missing { if eventID == event.EventID() { result = append(result, event) break } } missing = missingEventsFrom(result, addsStateEventIDs) if len(missing) == 0 { return result, nil } // At this point the missing events are neither the event itself nor are // they present in our local database. Our only option is to fetch them // from the roomserver using the query API. eventReq := api.QueryEventsByIDRequest{EventIDs: missing} var eventResp api.QueryEventsByIDResponse if err := s.rsAPI.QueryEventsByID(context.TODO(), &eventReq, &eventResp); err != nil { return nil, err } for _, headeredEvent := range eventResp.Events { result = append(result, headeredEvent.Event) } missing = missingEventsFrom(result, addsStateEventIDs) if len(missing) != 0 { return nil, fmt.Errorf( "missing %d state events IDs at event %q", len(missing), event.EventID(), ) } return result, nil } func missingEventsFrom(events []*gomatrixserverlib.Event, required []string) []string { have := map[string]bool{} for _, event := range events { have[event.EventID()] = true } var missing []string for _, eventID := range required { if !have[eventID] { missing = append(missing, eventID) } } return missing }