package consumers import ( "context" "database/sql" "encoding/json" "errors" "fmt" "strings" "sync" "time" "github.com/tidwall/gjson" "github.com/matrix-org/gomatrixserverlib" "github.com/matrix-org/gomatrixserverlib/spec" "github.com/nats-io/nats.go" log "github.com/sirupsen/logrus" "github.com/matrix-org/dendrite/internal/eventutil" "github.com/matrix-org/dendrite/internal/pushgateway" "github.com/matrix-org/dendrite/internal/pushrules" rsapi "github.com/matrix-org/dendrite/roomserver/api" rstypes "github.com/matrix-org/dendrite/roomserver/types" "github.com/matrix-org/dendrite/setup/config" "github.com/matrix-org/dendrite/setup/jetstream" "github.com/matrix-org/dendrite/setup/process" "github.com/matrix-org/dendrite/syncapi/synctypes" "github.com/matrix-org/dendrite/syncapi/types" "github.com/matrix-org/dendrite/userapi/api" "github.com/matrix-org/dendrite/userapi/producers" "github.com/matrix-org/dendrite/userapi/storage" "github.com/matrix-org/dendrite/userapi/storage/tables" userAPITypes "github.com/matrix-org/dendrite/userapi/types" "github.com/matrix-org/dendrite/userapi/util" ) type OutputRoomEventConsumer struct { ctx context.Context cfg *config.UserAPI rsAPI rsapi.UserRoomserverAPI jetstream nats.JetStreamContext durable string db storage.UserDatabase topic string pgClient pushgateway.Client syncProducer *producers.SyncAPI msgCounts map[spec.ServerName]userAPITypes.MessageStats roomCounts map[spec.ServerName]map[string]bool // map from serverName to map from rommID to "isEncrypted" lastUpdate time.Time countsLock sync.Mutex serverName spec.ServerName } func NewOutputRoomEventConsumer( process *process.ProcessContext, cfg *config.UserAPI, js nats.JetStreamContext, store storage.UserDatabase, pgClient pushgateway.Client, rsAPI rsapi.UserRoomserverAPI, syncProducer *producers.SyncAPI, ) *OutputRoomEventConsumer { return &OutputRoomEventConsumer{ ctx: process.Context(), cfg: cfg, jetstream: js, db: store, durable: cfg.Matrix.JetStream.Durable("UserAPIRoomServerConsumer"), topic: cfg.Matrix.JetStream.Prefixed(jetstream.OutputRoomEvent), pgClient: pgClient, rsAPI: rsAPI, syncProducer: syncProducer, msgCounts: map[spec.ServerName]userAPITypes.MessageStats{}, roomCounts: map[spec.ServerName]map[string]bool{}, lastUpdate: time.Now(), countsLock: sync.Mutex{}, serverName: cfg.Matrix.ServerName, } } func (s *OutputRoomEventConsumer) Start() error { if err := jetstream.JetStreamConsumer( s.ctx, s.jetstream, s.topic, s.durable, 1, s.onMessage, nats.DeliverAll(), nats.ManualAck(), ); err != nil { return err } return nil } func (s *OutputRoomEventConsumer) onMessage(ctx context.Context, msgs []*nats.Msg) bool { msg := msgs[0] // Guaranteed to exist if onMessage is called // Only handle events we care about var event *rstypes.HeaderedEvent var isNewRoomEvent bool switch rsapi.OutputType(msg.Header.Get(jetstream.RoomEventType)) { case rsapi.OutputTypeNewRoomEvent: isNewRoomEvent = true fallthrough case rsapi.OutputTypeNewInviteEvent: var output rsapi.OutputEvent if err := json.Unmarshal(msg.Data, &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 true } if isNewRoomEvent { event = output.NewRoomEvent.Event } else { event = output.NewInviteEvent.Event } if event == nil { log.Errorf("userapi consumer: expected event") return true } log.WithFields(log.Fields{ "event_id": event.EventID(), "event_type": event.Type(), }).Tracef("Received message from roomserver: %#v", output) default: return true } if s.cfg.Matrix.ReportStats.Enabled { go s.storeMessageStats(ctx, event.Type(), string(event.SenderID()), event.RoomID().String()) } metadata, err := msg.Metadata() if err != nil { return true } if err := s.processMessage(ctx, event, uint64(spec.AsTimestamp(metadata.Timestamp))); err != nil { log.WithFields(log.Fields{ "event_id": event.EventID(), }).WithError(err).Errorf("userapi consumer: process room event failure") } return true } func (s *OutputRoomEventConsumer) storeMessageStats(ctx context.Context, eventType, eventSender, roomID string) { s.countsLock.Lock() defer s.countsLock.Unlock() // reset the roomCounts on a day change if s.lastUpdate.Day() != time.Now().Day() { s.roomCounts[s.serverName] = make(map[string]bool) s.lastUpdate = time.Now() } _, sender, err := gomatrixserverlib.SplitID('@', eventSender) if err != nil { return } msgCount := s.msgCounts[s.serverName] roomCount := s.roomCounts[s.serverName] if roomCount == nil { roomCount = make(map[string]bool) } switch eventType { case "m.room.message": roomCount[roomID] = false msgCount.Messages++ if sender == s.serverName { msgCount.SentMessages++ } case "m.room.encrypted": roomCount[roomID] = true msgCount.MessagesE2EE++ if sender == s.serverName { msgCount.SentMessagesE2EE++ } default: return } s.msgCounts[s.serverName] = msgCount s.roomCounts[s.serverName] = roomCount for serverName, stats := range s.msgCounts { var normalRooms, encryptedRooms int64 = 0, 0 for _, isEncrypted := range s.roomCounts[s.serverName] { if isEncrypted { encryptedRooms++ } else { normalRooms++ } } err := s.db.UpsertDailyRoomsMessages(ctx, serverName, stats, normalRooms, encryptedRooms) if err != nil { log.WithError(err).Errorf("failed to upsert daily messages") } // Clear stats if we successfully stored it if err == nil { stats.Messages = 0 stats.SentMessages = 0 stats.MessagesE2EE = 0 stats.SentMessagesE2EE = 0 s.msgCounts[serverName] = stats } } } func (s *OutputRoomEventConsumer) handleRoomUpgrade(ctx context.Context, oldRoomID, newRoomID string, localMembers []*localMembership, roomSize int) error { for _, membership := range localMembers { // Copy any existing push rules from old -> new room if err := s.copyPushrules(ctx, oldRoomID, newRoomID, membership.Localpart, membership.Domain); err != nil { return err } // preserve m.direct room state if err := s.updateMDirect(ctx, oldRoomID, newRoomID, membership.Localpart, membership.Domain, roomSize); err != nil { return err } // copy existing m.tag entries, if any if err := s.copyTags(ctx, oldRoomID, newRoomID, membership.Localpart, membership.Domain); err != nil { return err } } return nil } func (s *OutputRoomEventConsumer) copyPushrules(ctx context.Context, oldRoomID, newRoomID string, localpart string, serverName spec.ServerName) error { pushRules, err := s.db.QueryPushRules(ctx, localpart, serverName) if err != nil { return fmt.Errorf("failed to query pushrules for user: %w", err) } if pushRules == nil { return nil } for _, roomRule := range pushRules.Global.Room { if roomRule.RuleID != oldRoomID { continue } cpRool := *roomRule cpRool.RuleID = newRoomID pushRules.Global.Room = append(pushRules.Global.Room, &cpRool) rules, err := json.Marshal(pushRules) if err != nil { return err } if err = s.db.SaveAccountData(ctx, localpart, serverName, "", "m.push_rules", rules); err != nil { return fmt.Errorf("failed to update pushrules: %w", err) } } return nil } // updateMDirect copies the "is_direct" flag from oldRoomID to newROomID func (s *OutputRoomEventConsumer) updateMDirect(ctx context.Context, oldRoomID, newRoomID, localpart string, serverName spec.ServerName, roomSize int) error { // this is most likely not a DM, so skip updating m.direct state if roomSize > 2 { return nil } // Get direct message state directChatsRaw, err := s.db.GetAccountDataByType(ctx, localpart, serverName, "", "m.direct") if err != nil { return fmt.Errorf("failed to get m.direct from database: %w", err) } directChats := gjson.ParseBytes(directChatsRaw) newDirectChats := make(map[string][]string) // iterate over all userID -> roomIDs var found bool directChats.ForEach(func(userID, roomIDs gjson.Result) bool { for _, roomID := range roomIDs.Array() { newDirectChats[userID.Str] = append(newDirectChats[userID.Str], roomID.Str) // add the new roomID to m.direct if roomID.Str == oldRoomID { found = true newDirectChats[userID.Str] = append(newDirectChats[userID.Str], newRoomID) } } return true }) // Only hit the database if we found the old room as a DM for this user if found { var data []byte data, err = json.Marshal(newDirectChats) if err != nil { return err } if err = s.db.SaveAccountData(ctx, localpart, serverName, "", "m.direct", data); err != nil { return fmt.Errorf("failed to update m.direct state: %w", err) } } return nil } func (s *OutputRoomEventConsumer) copyTags(ctx context.Context, oldRoomID, newRoomID, localpart string, serverName spec.ServerName) error { tag, err := s.db.GetAccountDataByType(ctx, localpart, serverName, oldRoomID, "m.tag") if err != nil && !errors.Is(err, sql.ErrNoRows) { return err } if tag == nil { return nil } return s.db.SaveAccountData(ctx, localpart, serverName, newRoomID, "m.tag", tag) } func (s *OutputRoomEventConsumer) processMessage(ctx context.Context, event *rstypes.HeaderedEvent, streamPos uint64) error { members, roomSize, err := s.localRoomMembers(ctx, event.RoomID().String()) if err != nil { return fmt.Errorf("s.localRoomMembers: %w", err) } switch { case event.Type() == spec.MRoomMember: cevent, clientEvErr := synctypes.ToClientEvent(event, synctypes.FormatAll, func(roomID spec.RoomID, senderID spec.SenderID) (*spec.UserID, error) { return s.rsAPI.QueryUserIDForSender(ctx, roomID, senderID) }) if clientEvErr != nil { return clientEvErr } var member *localMembership member, err = newLocalMembership(cevent) if err != nil { return fmt.Errorf("newLocalMembership: %w", err) } if member.Membership == spec.Invite && member.Domain == s.cfg.Matrix.ServerName { // localRoomMembers only adds joined members. An invite // should also be pushed to the target user. members = append(members, member) } case event.Type() == "m.room.tombstone" && event.StateKeyEquals(""): // Handle room upgrades oldRoomID := event.RoomID().String() newRoomID := gjson.GetBytes(event.Content(), "replacement_room").Str if err = s.handleRoomUpgrade(ctx, oldRoomID, newRoomID, members, roomSize); err != nil { // while inconvenient, this shouldn't stop us from sending push notifications log.WithError(err).Errorf("UserAPI: failed to handle room upgrade for users") } } // TODO: run in parallel with localRoomMembers. roomName, err := s.roomName(ctx, event) if err != nil { return fmt.Errorf("s.roomName: %w", err) } log.WithFields(log.Fields{ "event_id": event.EventID(), "room_id": event.RoomID().String(), "num_members": len(members), "room_size": roomSize, }).Tracef("Notifying members") // Notification.UserIsTarget is a per-member field, so we // cannot group all users in a single request. // // TODO: does it have to be set? It's not required, and // removing it means we can send all notifications to // e.g. Element's Push gateway in one go. for _, mem := range members { if err := s.notifyLocal(ctx, event, mem, roomSize, roomName, streamPos); err != nil { log.WithFields(log.Fields{ "localpart": mem.Localpart, }).WithError(err).Error("Unable to push to local user") continue } } return nil } type localMembership struct { gomatrixserverlib.MemberContent UserID string Localpart string Domain spec.ServerName } func newLocalMembership(event *synctypes.ClientEvent) (*localMembership, error) { if event.StateKey == nil { return nil, fmt.Errorf("missing state_key") } var member localMembership if err := json.Unmarshal(event.Content, &member.MemberContent); err != nil { return nil, err } localpart, domain, err := gomatrixserverlib.SplitID('@', *event.StateKey) if err != nil { return nil, err } member.UserID = *event.StateKey member.Localpart = localpart member.Domain = domain return &member, nil } // localRoomMembers fetches the current local members of a room, and // the total number of members. func (s *OutputRoomEventConsumer) localRoomMembers(ctx context.Context, roomID string) ([]*localMembership, int, error) { // Get only locally joined users to avoid unmarshalling and caching // membership events we only use to calculate the room size. req := &rsapi.QueryMembershipsForRoomRequest{ RoomID: roomID, JoinedOnly: true, LocalOnly: true, } var res rsapi.QueryMembershipsForRoomResponse if err := s.rsAPI.QueryMembershipsForRoom(ctx, req, &res); err != nil { return nil, 0, err } // Since we only queried locally joined users above, // we also need to ask the roomserver about the joined user count. totalCount, err := s.rsAPI.JoinedUserCount(ctx, roomID) if err != nil { return nil, 0, err } var members []*localMembership for _, event := range res.JoinEvents { // Filter out invalid join events if event.StateKey == nil { continue } if *event.StateKey == "" { continue } // We're going to trust the Query from above to really just return // local users member, err := newLocalMembership(&event) if err != nil { log.WithError(err).Errorf("Parsing MemberContent") continue } members = append(members, member) } return members, totalCount, nil } // roomName returns the name in the event (if type==m.room.name), or // looks it up in roomserver. If there is no name, // m.room.canonical_alias is consulted. Returns an empty string if the // room has no name. func (s *OutputRoomEventConsumer) roomName(ctx context.Context, event *rstypes.HeaderedEvent) (string, error) { if event.Type() == spec.MRoomName { name, err := unmarshalRoomName(event) if err != nil { return "", err } if name != "" { return name, nil } } // Special case for invites, as we don't store any "current state" for these events, // we need to make sure that, if present, the m.room.name is sent as well. if event.Type() == spec.MRoomMember && gjson.GetBytes(event.Content(), "membership").Str == "invite" { invState := gjson.GetBytes(event.JSON(), "unsigned.invite_room_state") for _, ev := range invState.Array() { if ev.Get("type").Str == spec.MRoomName { name := ev.Get("content.name").Str return name, nil } } } req := &rsapi.QueryCurrentStateRequest{ RoomID: event.RoomID().String(), StateTuples: []gomatrixserverlib.StateKeyTuple{roomNameTuple, canonicalAliasTuple}, } var res rsapi.QueryCurrentStateResponse if err := s.rsAPI.QueryCurrentState(ctx, req, &res); err != nil { return "", nil } if eventS := res.StateEvents[roomNameTuple]; eventS != nil { return unmarshalRoomName(eventS) } if event.Type() == spec.MRoomCanonicalAlias { alias, err := unmarshalCanonicalAlias(event) if err != nil { return "", err } if alias != "" { return alias, nil } } if event = res.StateEvents[canonicalAliasTuple]; event != nil { return unmarshalCanonicalAlias(event) } return "", nil } var ( canonicalAliasTuple = gomatrixserverlib.StateKeyTuple{EventType: spec.MRoomCanonicalAlias} roomNameTuple = gomatrixserverlib.StateKeyTuple{EventType: spec.MRoomName} ) func unmarshalRoomName(event *rstypes.HeaderedEvent) (string, error) { var nc eventutil.NameContent if err := json.Unmarshal(event.Content(), &nc); err != nil { return "", fmt.Errorf("unmarshaling NameContent: %w", err) } return nc.Name, nil } func unmarshalCanonicalAlias(event *rstypes.HeaderedEvent) (string, error) { var cac eventutil.CanonicalAliasContent if err := json.Unmarshal(event.Content(), &cac); err != nil { return "", fmt.Errorf("unmarshaling CanonicalAliasContent: %w", err) } return cac.Alias, nil } // notifyLocal finds the right push actions for a local user, given an event. func (s *OutputRoomEventConsumer) notifyLocal(ctx context.Context, event *rstypes.HeaderedEvent, mem *localMembership, roomSize int, roomName string, streamPos uint64) error { actions, err := s.evaluatePushRules(ctx, event, mem, roomSize) if err != nil { return fmt.Errorf("s.evaluatePushRules: %w", err) } a, tweaks, err := pushrules.ActionsToTweaks(actions) if err != nil { return fmt.Errorf("pushrules.ActionsToTweaks: %w", err) } if a != pushrules.NotifyAction { log.WithFields(log.Fields{ "event_id": event.EventID(), "room_id": event.RoomID().String(), "localpart": mem.Localpart, }).Tracef("Push rule evaluation rejected the event") return nil } devicesByURLAndFormat, profileTag, err := s.localPushDevices(ctx, mem.Localpart, mem.Domain, tweaks) if err != nil { return fmt.Errorf("s.localPushDevices: %w", err) } clientEvent, err := synctypes.ToClientEvent(event, synctypes.FormatSync, func(roomID spec.RoomID, senderID spec.SenderID) (*spec.UserID, error) { return s.rsAPI.QueryUserIDForSender(ctx, roomID, senderID) }) if err != nil { return err } n := &api.Notification{ Actions: actions, // UNSPEC: the spec doesn't say this is a ClientEvent, but the // fields seem to match. room_id should be missing, which // matches the behaviour of FormatSync. Event: *clientEvent, // TODO: this is per-device, but it's not part of the primary // key. So inserting one notification per profile tag doesn't // make sense. What is this supposed to be? Sytests require it // to "work", but they only use a single device. ProfileTag: profileTag, RoomID: event.RoomID().String(), TS: spec.AsTimestamp(time.Now()), } if err = s.db.InsertNotification(ctx, mem.Localpart, mem.Domain, event.EventID(), streamPos, tweaks, n); err != nil { return fmt.Errorf("s.db.InsertNotification: %w", err) } if err = s.syncProducer.GetAndSendNotificationData(ctx, mem.UserID, event.RoomID().String()); err != nil { return fmt.Errorf("s.syncProducer.GetAndSendNotificationData: %w", err) } // We do this after InsertNotification. Thus, this should always return >=1. userNumUnreadNotifs, err := s.db.GetNotificationCount(ctx, mem.Localpart, mem.Domain, tables.AllNotifications) if err != nil { return fmt.Errorf("s.db.GetNotificationCount: %w", err) } log.WithFields(log.Fields{ "event_id": event.EventID(), "room_id": event.RoomID().String(), "localpart": mem.Localpart, "num_urls": len(devicesByURLAndFormat), "num_unread": userNumUnreadNotifs, }).Trace("Notifying single member") // Push gateways are out of our control, and we cannot risk // looking up the server on a misbehaving push gateway. Each user // receives a goroutine now that all internal API calls have been // made. // // TODO: think about bounding this to one per user, and what // ordering guarantees we must provide. go func() { // This background processing cannot be tied to a request. ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second) defer cancel() var rejected []*pushgateway.Device for url, fmts := range devicesByURLAndFormat { for format, devices := range fmts { // TODO: support "email". if !strings.HasPrefix(url, "http") { continue } // UNSPEC: the specification suggests there can be // more than one device per request. There is at least // one Sytest that expects one HTTP request per // device, rather than per URL. For now, we must // notify each one separately. for _, dev := range devices { rej, err := s.notifyHTTP(ctx, event, url, format, []*pushgateway.Device{dev}, mem.Localpart, roomName, int(userNumUnreadNotifs)) if err != nil { log.WithFields(log.Fields{ "event_id": event.EventID(), "localpart": mem.Localpart, }).WithError(err).Errorf("Unable to notify HTTP pusher") continue } rejected = append(rejected, rej...) } } } if len(rejected) > 0 { s.deleteRejectedPushers(ctx, rejected, mem.Localpart, mem.Domain) } }() return nil } // evaluatePushRules fetches and evaluates the push rules of a local // user. Returns actions (including dont_notify). func (s *OutputRoomEventConsumer) evaluatePushRules(ctx context.Context, event *rstypes.HeaderedEvent, mem *localMembership, roomSize int) ([]*pushrules.Action, error) { user := "" sender, err := s.rsAPI.QueryUserIDForSender(ctx, event.RoomID(), event.SenderID()) if err == nil { user = sender.String() } if user == mem.UserID { // SPEC: Homeservers MUST NOT notify the Push Gateway for // events that the user has sent themselves. return nil, nil } // Get accountdata to check if the event.Sender() is ignored by mem.LocalPart data, err := s.db.GetAccountDataByType(ctx, mem.Localpart, mem.Domain, "", "m.ignored_user_list") if err != nil { return nil, err } if data != nil { ignored := types.IgnoredUsers{} err = json.Unmarshal(data, &ignored) if err != nil { return nil, err } if _, ok := ignored.List[sender.String()]; ok { return nil, fmt.Errorf("user %s is ignored", sender.String()) } } ruleSets, err := s.db.QueryPushRules(ctx, mem.Localpart, mem.Domain) if err != nil { return nil, err } ec := &ruleSetEvalContext{ ctx: ctx, rsAPI: s.rsAPI, mem: mem, roomID: event.RoomID().String(), roomSize: roomSize, } eval := pushrules.NewRuleSetEvaluator(ec, &ruleSets.Global) rule, err := eval.MatchEvent(event.PDU, func(roomID spec.RoomID, senderID spec.SenderID) (*spec.UserID, error) { return s.rsAPI.QueryUserIDForSender(ctx, roomID, senderID) }) if err != nil { return nil, err } if rule == nil { // SPEC: If no rules match an event, the homeserver MUST NOT // notify the Push Gateway for that event. return nil, nil } log.WithFields(log.Fields{ "event_id": event.EventID(), "room_id": event.RoomID().String(), "localpart": mem.Localpart, "rule_id": rule.RuleID, }).Trace("Matched a push rule") return rule.Actions, nil } type ruleSetEvalContext struct { ctx context.Context rsAPI rsapi.UserRoomserverAPI mem *localMembership roomID string roomSize int } func (rse *ruleSetEvalContext) UserDisplayName() string { return rse.mem.DisplayName } func (rse *ruleSetEvalContext) RoomMemberCount() (int, error) { return rse.roomSize, nil } func (rse *ruleSetEvalContext) HasPowerLevel(senderID spec.SenderID, levelKey string) (bool, error) { req := &rsapi.QueryLatestEventsAndStateRequest{ RoomID: rse.roomID, StateToFetch: []gomatrixserverlib.StateKeyTuple{ {EventType: spec.MRoomPowerLevels}, }, } var res rsapi.QueryLatestEventsAndStateResponse if err := rse.rsAPI.QueryLatestEventsAndState(rse.ctx, req, &res); err != nil { return false, err } for _, ev := range res.StateEvents { if ev.Type() != spec.MRoomPowerLevels { continue } plc, err := gomatrixserverlib.NewPowerLevelContentFromEvent(ev.PDU) if err != nil { return false, err } return plc.UserLevel(senderID) >= plc.NotificationLevel(levelKey), nil } return true, nil } // localPushDevices pushes to the configured devices of a local // user. The map keys are [url][format]. func (s *OutputRoomEventConsumer) localPushDevices(ctx context.Context, localpart string, serverName spec.ServerName, tweaks map[string]interface{}) (map[string]map[string][]*pushgateway.Device, string, error) { pusherDevices, err := util.GetPushDevices(ctx, localpart, serverName, tweaks, s.db) if err != nil { return nil, "", fmt.Errorf("util.GetPushDevices: %w", err) } var profileTag string devicesByURL := make(map[string]map[string][]*pushgateway.Device, len(pusherDevices)) for _, pusherDevice := range pusherDevices { if profileTag == "" { profileTag = pusherDevice.Pusher.ProfileTag } url := pusherDevice.URL if devicesByURL[url] == nil { devicesByURL[url] = make(map[string][]*pushgateway.Device, 2) } devicesByURL[url][pusherDevice.Format] = append(devicesByURL[url][pusherDevice.Format], &pusherDevice.Device) } return devicesByURL, profileTag, nil } // notifyHTTP performs a notificatation to a Push Gateway. func (s *OutputRoomEventConsumer) notifyHTTP(ctx context.Context, event *rstypes.HeaderedEvent, url, format string, devices []*pushgateway.Device, localpart, roomName string, userNumUnreadNotifs int) ([]*pushgateway.Device, error) { logger := log.WithFields(log.Fields{ "event_id": event.EventID(), "url": url, "localpart": localpart, "num_devices": len(devices), }) var req pushgateway.NotifyRequest switch format { case "event_id_only": req = pushgateway.NotifyRequest{ Notification: pushgateway.Notification{ Counts: &pushgateway.Counts{ Unread: userNumUnreadNotifs, }, Devices: devices, EventID: event.EventID(), RoomID: event.RoomID().String(), }, } default: sender, err := s.rsAPI.QueryUserIDForSender(ctx, event.RoomID(), event.SenderID()) if err != nil { logger.WithError(err).Errorf("Failed to get userID for sender %s", event.SenderID()) return nil, err } req = pushgateway.NotifyRequest{ Notification: pushgateway.Notification{ Content: event.Content(), Counts: &pushgateway.Counts{ Unread: userNumUnreadNotifs, }, Devices: devices, EventID: event.EventID(), ID: event.EventID(), RoomID: event.RoomID().String(), RoomName: roomName, Sender: sender.String(), Type: event.Type(), }, } if mem, memberErr := event.Membership(); memberErr == nil { req.Notification.Membership = mem } userID, err := spec.NewUserID(fmt.Sprintf("@%s:%s", localpart, s.cfg.Matrix.ServerName), true) if err != nil { logger.WithError(err).Errorf("Failed to convert local user to userID %s", localpart) return nil, err } localSender, err := s.rsAPI.QuerySenderIDForUser(ctx, event.RoomID(), *userID) if err != nil { logger.WithError(err).Errorf("Failed to get local user senderID for room %s: %s", userID.String(), event.RoomID().String()) return nil, err } else if localSender == nil { logger.WithError(err).Errorf("Failed to get local user senderID for room %s: %s", userID.String(), event.RoomID().String()) return nil, fmt.Errorf("no sender ID for user %s in %s", userID.String(), event.RoomID().String()) } if event.StateKey() != nil && *event.StateKey() == string(*localSender) { req.Notification.UserIsTarget = true } } logger.Tracef("Notifying push gateway %s", url) var res pushgateway.NotifyResponse if err := s.pgClient.Notify(ctx, url, &req, &res); err != nil { logger.WithError(err).Errorf("Failed to notify push gateway %s", url) return nil, err } logger.WithField("num_rejected", len(res.Rejected)).Trace("Push gateway result") if len(res.Rejected) == 0 { return nil, nil } devMap := make(map[string]*pushgateway.Device, len(devices)) for _, d := range devices { devMap[d.PushKey] = d } rejected := make([]*pushgateway.Device, 0, len(res.Rejected)) for _, pushKey := range res.Rejected { d := devMap[pushKey] if d != nil { rejected = append(rejected, d) } } return rejected, nil } // deleteRejectedPushers deletes the pushers associated with the given devices. func (s *OutputRoomEventConsumer) deleteRejectedPushers(ctx context.Context, devices []*pushgateway.Device, localpart string, serverName spec.ServerName) { log.WithFields(log.Fields{ "localpart": localpart, "app_id0": devices[0].AppID, "num_devices": len(devices), }).Warnf("Deleting pushers rejected by the HTTP push gateway") for _, d := range devices { if err := s.db.RemovePusher(ctx, d.AppID, d.PushKey, localpart, serverName); err != nil { log.WithFields(log.Fields{ "localpart": localpart, }).WithError(err).Errorf("Unable to delete rejected pusher") } } }