This is an ordered sequence of timelines, which may or may not * be continuous. Each timeline lists a series of events, as well as tracking * the room state at the start and the end of the timeline (if appropriate). * It also tracks forward and backward pagination tokens, as well as containing * links to the next timeline in the sequence. * *
There is one special timeline - the 'live' timeline, which represents the * timeline to which events are being added in real-time as they are received * from the /sync API. Note that you should not retain references to this * timeline - even if it is the current timeline right now, it may not remain * so if the server gives us a timeline gap in /sync. * *
In order that we can find events from their ids later, we also maintain a * map from event_id to timeline and index. * * @param room - Room for this timelineSet. May be null for non-room cases, such as the * notification timeline. * @param opts - Options inherited from Room. * @param client - the Matrix client which owns this EventTimelineSet, * can be omitted if room is specified. * @param thread - the thread to which this timeline set relates. * @param isThreadTimeline - Whether this timeline set relates to a thread list timeline * (e.g., All threads or My threads) */ constructor(room, opts = {}, client, thread, threadListType = null) { super(); this.room = room; this.thread = thread; this.threadListType = threadListType; _defineProperty(this, "relations", void 0); _defineProperty(this, "timelineSupport", void 0); _defineProperty(this, "displayPendingEvents", void 0); _defineProperty(this, "liveTimeline", void 0); _defineProperty(this, "timelines", void 0); _defineProperty(this, "_eventIdToTimeline", new Map()); _defineProperty(this, "filter", void 0); this.timelineSupport = Boolean(opts.timelineSupport); this.liveTimeline = new _eventTimeline.EventTimeline(this); this.displayPendingEvents = opts.pendingEvents !== false; // just a list - *not* ordered. this.timelines = [this.liveTimeline]; this._eventIdToTimeline = new Map(); this.filter = opts.filter; this.relations = this.room?.relations ?? new _relationsContainer.RelationsContainer(room?.client ?? client); } /** * Get all the timelines in this set * @returns the timelines in this set */ getTimelines() { return this.timelines; } /** * Get the filter object this timeline set is filtered on, if any * @returns the optional filter for this timelineSet */ getFilter() { return this.filter; } /** * Set the filter object this timeline set is filtered on * (passed to the server when paginating via /messages). * @param filter - the filter for this timelineSet */ setFilter(filter) { this.filter = filter; } /** * Get the list of pending sent events for this timelineSet's room, filtered * by the timelineSet's filter if appropriate. * * @returns A list of the sent events * waiting for remote echo. * * @throws If `opts.pendingEventOrdering` was not 'detached' */ getPendingEvents() { if (!this.room || !this.displayPendingEvents) { return []; } return this.room.getPendingEvents(); } /** * Get the live timeline for this room. * * @returns live timeline */ getLiveTimeline() { return this.liveTimeline; } /** * Set the live timeline for this room. * * @returns live timeline */ setLiveTimeline(timeline) { this.liveTimeline = timeline; } /** * Return the timeline (if any) this event is in. * @param eventId - the eventId being sought * @returns timeline */ eventIdToTimeline(eventId) { return this._eventIdToTimeline.get(eventId); } /** * Track a new event as if it were in the same timeline as an old event, * replacing it. * @param oldEventId - event ID of the original event * @param newEventId - event ID of the replacement event */ replaceEventId(oldEventId, newEventId) { const existingTimeline = this._eventIdToTimeline.get(oldEventId); if (existingTimeline) { this._eventIdToTimeline.delete(oldEventId); this._eventIdToTimeline.set(newEventId, existingTimeline); } } /** * Reset the live timeline, and start a new one. * *
This is used when /sync returns a 'limited' timeline. * * @param backPaginationToken - token for back-paginating the new timeline * @param forwardPaginationToken - token for forward-paginating the old live timeline, * if absent or null, all timelines are reset. * * @remarks * Fires {@link RoomEvent.TimelineReset} */ resetLiveTimeline(backPaginationToken, forwardPaginationToken) { // Each EventTimeline has RoomState objects tracking the state at the start // and end of that timeline. The copies at the end of the live timeline are // special because they will have listeners attached to monitor changes to // the current room state, so we move this RoomState from the end of the // current live timeline to the end of the new one and, if necessary, // replace it with a newly created one. We also make a copy for the start // of the new timeline. // if timeline support is disabled, forget about the old timelines const resetAllTimelines = !this.timelineSupport || !forwardPaginationToken; const oldTimeline = this.liveTimeline; const newTimeline = resetAllTimelines ? oldTimeline.forkLive(_eventTimeline.EventTimeline.FORWARDS) : oldTimeline.fork(_eventTimeline.EventTimeline.FORWARDS); if (resetAllTimelines) { this.timelines = [newTimeline]; this._eventIdToTimeline = new Map(); } else { this.timelines.push(newTimeline); } if (forwardPaginationToken) { // Now set the forward pagination token on the old live timeline // so it can be forward-paginated. oldTimeline.setPaginationToken(forwardPaginationToken, _eventTimeline.EventTimeline.FORWARDS); } // make sure we set the pagination token before firing timelineReset, // otherwise clients which start back-paginating will fail, and then get // stuck without realising that they *can* back-paginate. newTimeline.setPaginationToken(backPaginationToken ?? null, _eventTimeline.EventTimeline.BACKWARDS); // Now we can swap the live timeline to the new one. this.liveTimeline = newTimeline; this.emit(_room.RoomEvent.TimelineReset, this.room, this, resetAllTimelines); } /** * Get the timeline which contains the given event, if any * * @param eventId - event ID to look for * @returns timeline containing * the given event, or null if unknown */ getTimelineForEvent(eventId) { if (eventId === null || eventId === undefined) { return null; } const res = this._eventIdToTimeline.get(eventId); return res === undefined ? null : res; } /** * Get an event which is stored in our timelines * * @param eventId - event ID to look for * @returns the given event, or undefined if unknown */ findEventById(eventId) { const tl = this.getTimelineForEvent(eventId); if (!tl) { return undefined; } return tl.getEvents().find(function (ev) { return ev.getId() == eventId; }); } /** * Add a new timeline to this timeline list * * @returns newly-created timeline */ addTimeline() { if (!this.timelineSupport) { throw new Error("timeline support is disabled. Set the 'timelineSupport'" + " parameter to true when creating MatrixClient to enable" + " it."); } const timeline = new _eventTimeline.EventTimeline(this); this.timelines.push(timeline); return timeline; } /** * Add events to a timeline * *
Will fire "Room.timeline" for each event added. * * @param events - A list of events to add. * * @param toStartOfTimeline - True to add these events to the start * (oldest) instead of the end (newest) of the timeline. If true, the oldest * event will be the last element of 'events'. * * @param timeline - timeline to * add events to. * * @param paginationToken - token for the next batch of events * * @remarks * Fires {@link RoomEvent.Timeline} * */ addEventsToTimeline(events, toStartOfTimeline, timeline, paginationToken) { if (!timeline) { throw new Error("'timeline' not specified for EventTimelineSet.addEventsToTimeline"); } if (!toStartOfTimeline && timeline == this.liveTimeline) { throw new Error("EventTimelineSet.addEventsToTimeline cannot be used for adding events to " + "the live timeline - use Room.addLiveEvents instead"); } if (this.filter) { events = this.filter.filterRoomTimeline(events); if (!events.length) { return; } } const direction = toStartOfTimeline ? _eventTimeline.EventTimeline.BACKWARDS : _eventTimeline.EventTimeline.FORWARDS; const inverseDirection = toStartOfTimeline ? _eventTimeline.EventTimeline.FORWARDS : _eventTimeline.EventTimeline.BACKWARDS; // Adding events to timelines can be quite complicated. The following // illustrates some of the corner-cases. // // Let's say we start by knowing about four timelines. timeline3 and // timeline4 are neighbours: // // timeline1 timeline2 timeline3 timeline4 // [M] [P] [S] <------> [T] // // Now we paginate timeline1, and get the following events from the server: // [M, N, P, R, S, T, U]. // // 1. First, we ignore event M, since we already know about it. // // 2. Next, we append N to timeline 1. // // 3. Next, we don't add event P, since we already know about it, // but we do link together the timelines. We now have: // // timeline1 timeline2 timeline3 timeline4 // [M, N] <---> [P] [S] <------> [T] // // 4. Now we add event R to timeline2: // // timeline1 timeline2 timeline3 timeline4 // [M, N] <---> [P, R] [S] <------> [T] // // Note that we have switched the timeline we are working on from // timeline1 to timeline2. // // 5. We ignore event S, but again join the timelines: // // timeline1 timeline2 timeline3 timeline4 // [M, N] <---> [P, R] <---> [S] <------> [T] // // 6. We ignore event T, and the timelines are already joined, so there // is nothing to do. // // 7. Finally, we add event U to timeline4: // // timeline1 timeline2 timeline3 timeline4 // [M, N] <---> [P, R] <---> [S] <------> [T, U] // // The important thing to note in the above is what happened when we // already knew about a given event: // // - if it was appropriate, we joined up the timelines (steps 3, 5). // - in any case, we started adding further events to the timeline which // contained the event we knew about (steps 3, 5, 6). // // // So much for adding events to the timeline. But what do we want to do // with the pagination token? // // In the case above, we will be given a pagination token which tells us how to // get events beyond 'U' - in this case, it makes sense to store this // against timeline4. But what if timeline4 already had 'U' and beyond? in // that case, our best bet is to throw away the pagination token we were // given and stick with whatever token timeline4 had previously. In short, // we want to only store the pagination token if the last event we receive // is one we didn't previously know about. // // We make an exception for this if it turns out that we already knew about // *all* of the events, and we weren't able to join up any timelines. When // that happens, it means our existing pagination token is faulty, since it // is only telling us what we already know. Rather than repeatedly // paginating with the same token, we might as well use the new pagination // token in the hope that we eventually work our way out of the mess. let didUpdate = false; let lastEventWasNew = false; for (const event of events) { const eventId = event.getId(); const existingTimeline = this._eventIdToTimeline.get(eventId); if (!existingTimeline) { // we don't know about this event yet. Just add it to the timeline. this.addEventToTimeline(event, timeline, { toStartOfTimeline }); lastEventWasNew = true; didUpdate = true; continue; } lastEventWasNew = false; if (existingTimeline == timeline) { debuglog("Event " + eventId + " already in timeline " + timeline); continue; } const neighbour = timeline.getNeighbouringTimeline(direction); if (neighbour) { // this timeline already has a neighbour in the relevant direction; // let's assume the timelines are already correctly linked up, and // skip over to it. // // there's probably some edge-case here where we end up with an // event which is in a timeline a way down the chain, and there is // a break in the chain somewhere. But I can't really imagine how // that would happen, so I'm going to ignore it for now. // if (existingTimeline == neighbour) { debuglog("Event " + eventId + " in neighbouring timeline - " + "switching to " + existingTimeline); } else { debuglog("Event " + eventId + " already in a different " + "timeline " + existingTimeline); } timeline = existingTimeline; continue; } // time to join the timelines. _logger.logger.info("Already have timeline for " + eventId + " - joining timeline " + timeline + " to " + existingTimeline); // Variables to keep the line length limited below. const existingIsLive = existingTimeline === this.liveTimeline; const timelineIsLive = timeline === this.liveTimeline; const backwardsIsLive = direction === _eventTimeline.EventTimeline.BACKWARDS && existingIsLive; const forwardsIsLive = direction === _eventTimeline.EventTimeline.FORWARDS && timelineIsLive; if (backwardsIsLive || forwardsIsLive) { // The live timeline should never be spliced into a non-live position. // We use independent logging to better discover the problem at a glance. if (backwardsIsLive) { _logger.logger.warn("Refusing to set a preceding existingTimeLine on our " + "timeline as the existingTimeLine is live (" + existingTimeline + ")"); } if (forwardsIsLive) { _logger.logger.warn("Refusing to set our preceding timeline on a existingTimeLine " + "as our timeline is live (" + timeline + ")"); } continue; // abort splicing - try next event } timeline.setNeighbouringTimeline(existingTimeline, direction); existingTimeline.setNeighbouringTimeline(timeline, inverseDirection); timeline = existingTimeline; didUpdate = true; } // see above - if the last event was new to us, or if we didn't find any // new information, we update the pagination token for whatever // timeline we ended up on. if (lastEventWasNew || !didUpdate) { if (direction === _eventTimeline.EventTimeline.FORWARDS && timeline === this.liveTimeline) { _logger.logger.warn({ lastEventWasNew, didUpdate }); // for debugging _logger.logger.warn(`Refusing to set forwards pagination token of live timeline ` + `${timeline} to ${paginationToken}`); return; } timeline.setPaginationToken(paginationToken ?? null, direction); } } /** * Add an event to the end of this live timeline. * * @param event - Event to be added * @param options - addLiveEvent options */ /** * @deprecated In favor of the overload with `IAddLiveEventOptions` */ addLiveEvent(event, duplicateStrategyOrOpts, fromCache = false, roomState) { let duplicateStrategy = duplicateStrategyOrOpts || DuplicateStrategy.Ignore; let timelineWasEmpty; if (typeof duplicateStrategyOrOpts === "object") { ({ duplicateStrategy = DuplicateStrategy.Ignore, fromCache = false, roomState, timelineWasEmpty } = duplicateStrategyOrOpts); } else if (duplicateStrategyOrOpts !== undefined) { // Deprecation warning // FIXME: Remove after 2023-06-01 (technical debt) _logger.logger.warn("Overload deprecated: " + "`EventTimelineSet.addLiveEvent(event, duplicateStrategy?, fromCache?, roomState?)` " + "is deprecated in favor of the overload with " + "`EventTimelineSet.addLiveEvent(event, IAddLiveEventOptions)`"); } if (this.filter) { const events = this.filter.filterRoomTimeline([event]); if (!events.length) { return; } } const timeline = this._eventIdToTimeline.get(event.getId()); if (timeline) { if (duplicateStrategy === DuplicateStrategy.Replace) { debuglog("EventTimelineSet.addLiveEvent: replacing duplicate event " + event.getId()); const tlEvents = timeline.getEvents(); for (let j = 0; j < tlEvents.length; j++) { if (tlEvents[j].getId() === event.getId()) { // still need to set the right metadata on this event if (!roomState) { roomState = timeline.getState(_eventTimeline.EventTimeline.FORWARDS); } _eventTimeline.EventTimeline.setEventMetadata(event, roomState, false); tlEvents[j] = event; // XXX: we need to fire an event when this happens. break; } } } else { debuglog("EventTimelineSet.addLiveEvent: ignoring duplicate event " + event.getId()); } return; } this.addEventToTimeline(event, this.liveTimeline, { toStartOfTimeline: false, fromCache, roomState, timelineWasEmpty }); } /** * Add event to the given timeline, and emit Room.timeline. Assumes * we have already checked we don't know about this event. * * Will fire "Room.timeline" for each event added. * * @param options - addEventToTimeline options * * @remarks * Fires {@link RoomEvent.Timeline} */ /** * @deprecated In favor of the overload with `IAddEventToTimelineOptions` */ addEventToTimeline(event, timeline, toStartOfTimelineOrOpts, fromCache = false, roomState) { let toStartOfTimeline = !!toStartOfTimelineOrOpts; let timelineWasEmpty; if (typeof toStartOfTimelineOrOpts === "object") { ({ toStartOfTimeline, fromCache = false, roomState, timelineWasEmpty } = toStartOfTimelineOrOpts); } else if (toStartOfTimelineOrOpts !== undefined) { // Deprecation warning // FIXME: Remove after 2023-06-01 (technical debt) _logger.logger.warn("Overload deprecated: " + "`EventTimelineSet.addEventToTimeline(event, timeline, toStartOfTimeline, fromCache?, roomState?)` " + "is deprecated in favor of the overload with " + "`EventTimelineSet.addEventToTimeline(event, timeline, IAddEventToTimelineOptions)`"); } if (timeline.getTimelineSet() !== this) { throw new Error(`EventTimelineSet.addEventToTimeline: Timeline=${timeline.toString()} does not belong " + "in timelineSet(threadId=${this.thread?.id})`); } // Make sure events don't get mixed in timelines they shouldn't be in (e.g. a // threaded message should not be in the main timeline). // // We can only run this check for timelines with a `room` because `canContain` // requires it if (this.room && !this.canContain(event)) { let eventDebugString = `event=${event.getId()}`; if (event.threadRootId) { eventDebugString += `(belongs to thread=${event.threadRootId})`; } _logger.logger.warn(`EventTimelineSet.addEventToTimeline: Ignoring ${eventDebugString} that does not belong ` + `in timeline=${timeline.toString()} timelineSet(threadId=${this.thread?.id})`); return; } const eventId = event.getId(); timeline.addEvent(event, { toStartOfTimeline, roomState, timelineWasEmpty }); this._eventIdToTimeline.set(eventId, timeline); this.relations.aggregateParentEvent(event); this.relations.aggregateChildEvent(event, this); const data = { timeline: timeline, liveEvent: !toStartOfTimeline && timeline == this.liveTimeline && !fromCache }; this.emit(_room.RoomEvent.Timeline, event, this.room, Boolean(toStartOfTimeline), false, data); } /** * Insert event to the given timeline, and emit Room.timeline. Assumes * we have already checked we don't know about this event. * * TEMPORARY: until we have recursive relations, we need this function * to exist to allow us to insert events in timeline order, which is our * best guess for Sync Order. * This is a copy of addEventToTimeline above, modified to insert the event * after the event it relates to, and before any event with a later * timestamp. This is our best guess at Sync Order. * * Will fire "Room.timeline" for each event added. * * @internal * * @param options - addEventToTimeline options * * @remarks * Fires {@link RoomEvent.Timeline} */ insertEventIntoTimeline(event, timeline, roomState) { if (timeline.getTimelineSet() !== this) { throw new Error(`EventTimelineSet.addEventToTimeline: Timeline=${timeline.toString()} does not belong " + "in timelineSet(threadId=${this.thread?.id})`); } // Make sure events don't get mixed in timelines they shouldn't be in (e.g. a // threaded message should not be in the main timeline). // // We can only run this check for timelines with a `room` because `canContain` // requires it if (this.room && !this.canContain(event)) { let eventDebugString = `event=${event.getId()}`; if (event.threadRootId) { eventDebugString += `(belongs to thread=${event.threadRootId})`; } _logger.logger.warn(`EventTimelineSet.addEventToTimeline: Ignoring ${eventDebugString} that does not belong ` + `in timeline=${timeline.toString()} timelineSet(threadId=${this.thread?.id})`); return; } // Find the event that this event is related to - the "parent" const parentEventId = event.relationEventId; if (!parentEventId) { // Not related to anything - we just append this.addEventToTimeline(event, timeline, { toStartOfTimeline: false, fromCache: false, timelineWasEmpty: false, roomState }); return; } const parentEvent = this.findEventById(parentEventId); const timelineEvents = timeline.getEvents(); // Start searching from the parent event, or if it's not loaded, start // at the beginning and insert purely using timestamp order. const parentIndex = parentEvent !== undefined ? timelineEvents.indexOf(parentEvent) : 0; let insertIndex = parentIndex; for (; insertIndex < timelineEvents.length; insertIndex++) { const nextEvent = timelineEvents[insertIndex]; if (nextEvent.getTs() > event.getTs()) { // We found an event later than ours, so insert before that. break; } } // If we got to the end of the loop, insertIndex points at the end of // the list. const eventId = event.getId(); timeline.insertEvent(event, insertIndex, roomState); this._eventIdToTimeline.set(eventId, timeline); this.relations.aggregateParentEvent(event); this.relations.aggregateChildEvent(event, this); const data = { timeline: timeline, liveEvent: timeline == this.liveTimeline }; this.emit(_room.RoomEvent.Timeline, event, this.room, false, false, data); } /** * Replaces event with ID oldEventId with one with newEventId, if oldEventId is * recognised. Otherwise, add to the live timeline. Used to handle remote echos. * * @param localEvent - the new event to be added to the timeline * @param oldEventId - the ID of the original event * @param newEventId - the ID of the replacement event * * @remarks * Fires {@link RoomEvent.Timeline} */ handleRemoteEcho(localEvent, oldEventId, newEventId) { // XXX: why don't we infer newEventId from localEvent? const existingTimeline = this._eventIdToTimeline.get(oldEventId); if (existingTimeline) { this._eventIdToTimeline.delete(oldEventId); this._eventIdToTimeline.set(newEventId, existingTimeline); } else if (!this.filter || this.filter.filterRoomTimeline([localEvent]).length) { this.addEventToTimeline(localEvent, this.liveTimeline, { toStartOfTimeline: false }); } } /** * Removes a single event from this room. * * @param eventId - The id of the event to remove * * @returns the removed event, or null if the event was not found * in this room. */ removeEvent(eventId) { const timeline = this._eventIdToTimeline.get(eventId); if (!timeline) { return null; } const removed = timeline.removeEvent(eventId); if (removed) { this._eventIdToTimeline.delete(eventId); const data = { timeline: timeline }; this.emit(_room.RoomEvent.Timeline, removed, this.room, undefined, true, data); } return removed; } /** * Determine where two events appear in the timeline relative to one another * * @param eventId1 - The id of the first event * @param eventId2 - The id of the second event * @returns a number less than zero if eventId1 precedes eventId2, and * greater than zero if eventId1 succeeds eventId2. zero if they are the * same event; null if we can't tell (either because we don't know about one * of the events, or because they are in separate timelines which don't join * up). */ compareEventOrdering(eventId1, eventId2) { if (eventId1 == eventId2) { // optimise this case return 0; } const timeline1 = this._eventIdToTimeline.get(eventId1); const timeline2 = this._eventIdToTimeline.get(eventId2); if (timeline1 === undefined) { return null; } if (timeline2 === undefined) { return null; } if (timeline1 === timeline2) { // both events are in the same timeline - figure out their relative indices let idx1 = undefined; let idx2 = undefined; const events = timeline1.getEvents(); for (let idx = 0; idx < events.length && (idx1 === undefined || idx2 === undefined); idx++) { const evId = events[idx].getId(); if (evId == eventId1) { idx1 = idx; } if (evId == eventId2) { idx2 = idx; } } return idx1 - idx2; } // the events are in different timelines. Iterate through the // linkedlist to see which comes first. // first work forwards from timeline1 let tl = timeline1; while (tl) { if (tl === timeline2) { // timeline1 is before timeline2 return -1; } tl = tl.getNeighbouringTimeline(_eventTimeline.EventTimeline.FORWARDS); } // now try backwards from timeline1 tl = timeline1; while (tl) { if (tl === timeline2) { // timeline2 is before timeline1 return 1; } tl = tl.getNeighbouringTimeline(_eventTimeline.EventTimeline.BACKWARDS); } // the timelines are not contiguous. return null; } /** * Determine whether a given event can sanely be added to this event timeline set, * for timeline sets relating to a thread, only return true for events in the same * thread timeline, for timeline sets not relating to a thread only return true * for events which should be shown in the main room timeline. * Requires the `room` property to have been set at EventTimelineSet construction time. * * @param event - the event to check whether it belongs to this timeline set. * @throws Error if `room` was not set when constructing this timeline set. * @returns whether the event belongs to this timeline set. */ canContain(event) { if (!this.room) { throw new Error("Cannot call `EventTimelineSet::canContain without a `room` set. " + "Set the room when creating the EventTimelineSet to call this method."); } const { threadId, shouldLiveInRoom } = this.room.eventShouldLiveIn(event); if (this.thread) { return this.thread.id === threadId; } return shouldLiveInRoom; } } exports.EventTimelineSet = EventTimelineSet;