package server import ( "heckel.io/ntfy/log" "math/rand" "sync" "time" ) const ( topicExpiryDuration = 6 * time.Hour ) // topic represents a channel to which subscribers can subscribe, and publishers // can publish a message type topic struct { ID string subscribers map[int]*topicSubscriber rateVisitor *visitor expires time.Time mu sync.RWMutex } type topicSubscriber struct { subscriber subscriber visitor *visitor // User ID associated with this subscription, may be empty cancel func() } // subscriber is a function that is called for every new message on a topic type subscriber func(v *visitor, msg *message) error // newTopic creates a new topic func newTopic(id string) *topic { return &topic{ ID: id, subscribers: make(map[int]*topicSubscriber), } } // Subscribe subscribes to this topic func (t *topic) Subscribe(s subscriber, visitor *visitor, cancel func()) int { t.mu.Lock() defer t.mu.Unlock() subscriberID := rand.Int() t.subscribers[subscriberID] = &topicSubscriber{ visitor: visitor, // May be empty subscriber: s, cancel: cancel, } return subscriberID } func (t *topic) Stale() bool { t.mu.Lock() defer t.mu.Unlock() return len(t.subscribers) == 0 && t.expires.Before(time.Now()) } func (t *topic) SetRateVisitor(v *visitor) { t.mu.Lock() defer t.mu.Unlock() t.rateVisitor = v } func (t *topic) RateVisitor() *visitor { t.mu.Lock() defer t.mu.Unlock() return t.rateVisitor } // Unsubscribe removes the subscription from the list of subscribers func (t *topic) Unsubscribe(id int) { t.mu.Lock() defer t.mu.Unlock() delete(t.subscribers, id) if len(t.subscribers) == 0 { t.expires = time.Now().Add(topicExpiryDuration) } } // Publish asynchronously publishes to all subscribers func (t *topic) Publish(v *visitor, m *message) error { go func() { // We want to lock the topic as short as possible, so we make a shallow copy of the // subscribers map here. Actually sending out the messages then doesn't have to lock. subscribers := t.subscribersCopy() if len(subscribers) > 0 { logvm(v, m).Tag(tagPublish).Debug("Forwarding to %d subscriber(s)", len(subscribers)) for _, s := range subscribers { // We call the subscriber functions in their own Go routines because they are blocking, and // we don't want individual slow subscribers to be able to block others. go func(s subscriber) { if err := s(v, m); err != nil { logvm(v, m).Tag(tagPublish).Err(err).Warn("Error forwarding to subscriber") } }(s.subscriber) } } else { logvm(v, m).Tag(tagPublish).Trace("No stream or WebSocket subscribers, not forwarding") } }() return nil } // SubscribersCount returns the number of subscribers to this topic func (t *topic) SubscribersCount() int { t.mu.RLock() defer t.mu.RUnlock() return len(t.subscribers) } // CancelSubscribers calls the cancel function for all subscribers, forcing func (t *topic) CancelSubscribers(exceptUserID string) { t.mu.Lock() defer t.mu.Unlock() for _, s := range t.subscribers { if s.visitor.MaybeUserID() != exceptUserID { // TODO: Shouldn't this log the IP for anonymous visitors? It was s.userID before my change. log.Tag(tagSubscribe).Field("topic", t.ID).Debug("Canceling subscriber %s", s.visitor.MaybeUserID()) s.cancel() } } } // subscribersCopy returns a shallow copy of the subscribers map func (t *topic) subscribersCopy() map[int]*topicSubscriber { t.mu.Lock() defer t.mu.Unlock() subscribers := make(map[int]*topicSubscriber) for k, sub := range t.subscribers { subscribers[k] = &topicSubscriber{ visitor: sub.visitor, subscriber: sub.subscriber, cancel: sub.cancel, } } return subscribers }