package stream import ( "context" "fmt" "sync" "time" ) // EventPublisher receives change events from Publish, and sends the events to // all subscribers of the event Topic. type EventPublisher struct { // snapCacheTTL controls how long we keep snapshots in our cache before // allowing them to be garbage collected and a new one made for subsequent // requests for that topic and key. In general this should be pretty short to // keep memory overhead of duplicated event data low - snapshots are typically // not that expensive, but having a cache for a few seconds can help // de-duplicate building the same snapshot over and over again when a // thundering herd of watchers all subscribe to the same topic within a few // seconds. snapCacheTTL time.Duration // This lock protects the snapCache, topicBuffers and topicBuffer.refs. lock sync.RWMutex // topicBuffers stores the head of the linked-list buffers to publish events to // for a topic. topicBuffers map[topicSubject]*topicBuffer // snapCache if a cache of EventSnapshots indexed by topic and subject. // TODO(streaming): new snapshotCache struct for snapCache and snapCacheTTL snapCache map[topicSubject]*eventSnapshot subscriptions *subscriptions // publishCh is used to send messages from an active txn to a goroutine which // publishes events, so that publishing can happen asynchronously from // the Commit call in the FSM hot path. publishCh chan []Event snapshotHandlers SnapshotHandlers } // topicSubject is used as a map key when accessing topic buffers and cached // snapshots. type topicSubject struct { Topic string Subject string } type subscriptions struct { // lock for byToken. If both subscription.lock and EventPublisher.lock need // to be held, EventPublisher.lock MUST always be acquired first. lock sync.RWMutex // byToken is an mapping of active Subscriptions indexed by a the token and // a pointer to the request. // When the token is modified all subscriptions under that token will be // reloaded. // A subscription may be unsubscribed by using the pointer to the request. byToken map[string]map[*SubscribeRequest]*Subscription } // topicBuffer augments the eventBuffer with a reference counter, enabling // clean up of unused buffers once there are no longer any subscribers for // the given topic and key. type topicBuffer struct { refs int // refs is guarded by EventPublisher.lock. buf *eventBuffer } // SnapshotHandlers is a mapping of Topic to a function which produces a snapshot // of events for the SubscribeRequest. Events are appended to the snapshot using SnapshotAppender. // The nil Topic is reserved and should not be used. type SnapshotHandlers map[Topic]SnapshotFunc // SnapshotFunc builds a snapshot for the subscription request, and appends the // events to the Snapshot using SnapshotAppender. // If err is not nil the SnapshotFunc must return a non-zero index. type SnapshotFunc func(SubscribeRequest, SnapshotAppender) (index uint64, err error) // SnapshotAppender appends groups of events to create a Snapshot of state. type SnapshotAppender interface { // Append events to the snapshot. Every event in the slice must have the same // Index, indicating that it is part of the same raft transaction. Append(events []Event) } // NewEventPublisher returns an EventPublisher for publishing change events. // Handlers are used to convert the memDB changes into events. // A goroutine is run in the background to publish events to all subscribes. // Cancelling the context will shutdown the goroutine, to free resources, // and stop all publishing. func NewEventPublisher(snapCacheTTL time.Duration) *EventPublisher { e := &EventPublisher{ snapCacheTTL: snapCacheTTL, topicBuffers: make(map[topicSubject]*topicBuffer), snapCache: make(map[topicSubject]*eventSnapshot), publishCh: make(chan []Event, 64), subscriptions: &subscriptions{ byToken: make(map[string]map[*SubscribeRequest]*Subscription), }, snapshotHandlers: make(map[Topic]SnapshotFunc), } return e } // RegisterHandler will register a new snapshot handler function. The expectation is // that all handlers get registered prior to the event publisher being Run. Handler // registration is therefore not concurrency safe and access to handlers is internally // not synchronized. func (e *EventPublisher) RegisterHandler(topic Topic, handler SnapshotFunc) error { if topic.String() == "" { return fmt.Errorf("the topic cannnot be empty") } if _, found := e.snapshotHandlers[topic]; found { return fmt.Errorf("a handler is already registered for the topic: %s", topic.String()) } e.snapshotHandlers[topic] = handler return nil } func (e *EventPublisher) RefreshTopic(topic Topic) error { if _, found := e.snapshotHandlers[topic]; !found { return fmt.Errorf("topic %s is not registered", topic) } e.forceEvictByTopic(topic) e.subscriptions.closeAllByTopic(topic) return nil } // Publish events to all subscribers of the event Topic. The events will be shared // with all subscriptions, so the Payload used in Event.Payload must be immutable. func (e *EventPublisher) Publish(events []Event) { if len(events) > 0 { e.publishCh <- events } } // Run the event publisher until ctx is cancelled. Run should be called from a // goroutine to forward events from Publish to all the appropriate subscribers. func (e *EventPublisher) Run(ctx context.Context) { for { select { case <-ctx.Done(): e.subscriptions.closeAll() return case update := <-e.publishCh: e.publishEvent(update) } } } // publishEvent appends the events to any applicable topic buffers. It handles // any closeSubscriptionPayload events by closing associated subscriptions. func (e *EventPublisher) publishEvent(events []Event) { groupedEvents := make(map[topicSubject][]Event) for _, event := range events { if unsubEvent, ok := event.Payload.(closeSubscriptionPayload); ok { e.subscriptions.closeSubscriptionsForTokens(unsubEvent.tokensSecretIDs) continue } groupKey := topicSubject{ Topic: event.Topic.String(), Subject: event.Payload.Subject().String(), } groupedEvents[groupKey] = append(groupedEvents[groupKey], event) } e.lock.Lock() defer e.lock.Unlock() for groupKey, events := range groupedEvents { // Note: bufferForPublishing returns nil if there are no subscribers for the // given topic and subject, in which case events will be dropped on the floor and // future subscribers will catch up by consuming the snapshot. if buf := e.bufferForPublishing(groupKey); buf != nil { buf.Append(events) } } } // bufferForSubscription returns the topic event buffer to which events for the // given topic and key will be appended. If no such buffer exists, a new buffer // will be created. // // Warning: e.lock MUST be held when calling this function. func (e *EventPublisher) bufferForSubscription(key topicSubject) *topicBuffer { buf, ok := e.topicBuffers[key] if !ok { buf = &topicBuffer{ buf: newEventBuffer(), } e.topicBuffers[key] = buf } return buf } // bufferForPublishing returns the event buffer to which events for the given // topic and key should be appended. nil will be returned if there are no // subscribers for the given topic and key. // // Warning: e.lock MUST be held when calling this function. func (e *EventPublisher) bufferForPublishing(key topicSubject) *eventBuffer { buf, ok := e.topicBuffers[key] if !ok { return nil } return buf.buf } // Subscribe returns a new Subscription for the given request. A subscription // will receive an initial snapshot of events matching the request if req.Index > 0. // After the snapshot, events will be streamed as they are created. // Subscriptions may be closed, forcing the client to resubscribe (for example if // ACL policies changed or the state store is abandoned). // // When the caller is finished with the subscription for any reason, it must // call Subscription.Unsubscribe to free ACL tracking resources. func (e *EventPublisher) Subscribe(req *SubscribeRequest) (*Subscription, error) { e.lock.Lock() defer e.lock.Unlock() handler, ok := e.snapshotHandlers[req.Topic] if !ok || req.Topic == nil { return nil, fmt.Errorf("unknown topic %v", req.Topic) } topicBuf := e.bufferForSubscription(req.topicSubject()) topicBuf.refs++ // freeBuf is used to free the topic buffer once there are no remaining // subscribers for the given topic and key. // // Note: it's called by Subcription.Unsubscribe which has its own side-effects // that are made without holding e.lock (so there's a moment where the ref // counter is inconsistent with the subscription map) — in practice this is // fine, we don't need these things to be strongly consistent. The alternative // would be to hold both locks, which introduces the risk of deadlocks. freeBuf := func() { e.lock.Lock() defer e.lock.Unlock() topicBuf.refs-- if topicBuf.refs == 0 { delete(e.topicBuffers, req.topicSubject()) // Evict cached snapshot too because the topic buffer will have been spliced // onto it. If we don't do this, any new subscribers started before the cache // TTL is reached will get "stuck" waiting on the old buffer. delete(e.snapCache, req.topicSubject()) } } topicHead := topicBuf.buf.Head() // If the client view is fresh, resume the stream. if req.Index > 0 && topicHead.HasEventIndex(req.Index) { buf := newEventBuffer() subscriptionHead := buf.Head() // splice the rest of the topic buffer onto the subscription buffer so // the subscription will receive new events. next, _ := topicHead.NextNoBlock() buf.AppendItem(next) return e.subscriptions.add(req, subscriptionHead, freeBuf), nil } snapFromCache := e.getCachedSnapshotLocked(req) if snapFromCache == nil { snap := newEventSnapshot() snap.appendAndSplice(*req, handler, topicHead) e.setCachedSnapshotLocked(req, snap) snapFromCache = snap } // If the request.Index is 0 the client has no view, send a full snapshot. if req.Index == 0 { return e.subscriptions.add(req, snapFromCache.First, freeBuf), nil } // otherwise the request has an Index, the client view is stale and must be reset // with a NewSnapshotToFollow event. result := newEventSnapshot() result.buffer.Append([]Event{{ Topic: req.Topic, Payload: newSnapshotToFollow{}, }}) result.buffer.AppendItem(snapFromCache.First) return e.subscriptions.add(req, result.First, freeBuf), nil } func (s *subscriptions) add(req *SubscribeRequest, head *bufferItem, freeBuf func()) *Subscription { // We wrap freeBuf in a sync.Once as it's expected that Subscription.unsub is // idempotent, but freeBuf decrements the reference counter on every call. var once sync.Once sub := newSubscription(*req, head, func() { s.unsubscribe(req) once.Do(freeBuf) }) s.lock.Lock() defer s.lock.Unlock() subsByToken, ok := s.byToken[req.Token] if !ok { subsByToken = make(map[*SubscribeRequest]*Subscription) s.byToken[req.Token] = subsByToken } subsByToken[req] = sub return sub } func (s *subscriptions) closeSubscriptionsForTokens(tokenSecretIDs []string) { s.lock.RLock() defer s.lock.RUnlock() for _, secretID := range tokenSecretIDs { if subs, ok := s.byToken[secretID]; ok { for _, sub := range subs { sub.forceClose() } } } } func (s *subscriptions) unsubscribe(req *SubscribeRequest) { s.lock.Lock() defer s.lock.Unlock() subsByToken, ok := s.byToken[req.Token] if !ok { return } delete(subsByToken, req) if len(subsByToken) == 0 { delete(s.byToken, req.Token) } } func (s *subscriptions) closeAll() { s.lock.Lock() defer s.lock.Unlock() for _, byRequest := range s.byToken { for _, sub := range byRequest { sub.forceClose() } } } func (s *subscriptions) closeAllByTopic(topic Topic) { s.lock.Lock() defer s.lock.Unlock() for _, byRequest := range s.byToken { for _, sub := range byRequest { if sub.req.Topic == topic { sub.forceClose() } } } } // EventPublisher.lock must be held to call this method. func (e *EventPublisher) getCachedSnapshotLocked(req *SubscribeRequest) *eventSnapshot { snap, ok := e.snapCache[req.topicSubject()] if ok && snap.err() == nil { return snap } return nil } // EventPublisher.lock must be held to call this method. func (e *EventPublisher) setCachedSnapshotLocked(req *SubscribeRequest, snap *eventSnapshot) { if e.snapCacheTTL == 0 { return } e.snapCache[req.topicSubject()] = snap // Setup a cache eviction time.AfterFunc(e.snapCacheTTL, func() { e.lock.Lock() defer e.lock.Unlock() delete(e.snapCache, req.topicSubject()) }) } // forceEvictByTopic will remove all entries from the snapshot cache for a given topic. // This method should be called while holding the publishers lock. func (e *EventPublisher) forceEvictByTopic(topic Topic) { e.lock.Lock() for key := range e.snapCache { if key.Topic == topic.String() { delete(e.snapCache, key) } } e.lock.Unlock() }