// Package event implements an event multiplexer. package event import ( "errors" "reflect" "sync" ) // Subscription is implemented by event subscriptions. type Subscription interface { // Chan returns a channel that carries events. // Implementations should return the same channel // for any subsequent calls to Chan. Chan() <-chan interface{} // Unsubscribe stops delivery of events to a subscription. // The event channel is closed. // Unsubscribe can be called more than once. Unsubscribe() } // A TypeMux dispatches events to registered receivers. Receivers can be // registered to handle events of certain type. Any operation // called after mux is stopped will return ErrMuxClosed. type TypeMux struct { mutex sync.RWMutex subm map[reflect.Type][]*muxsub stopped bool } // ErrMuxClosed is returned when Posting on a closed TypeMux. var ErrMuxClosed = errors.New("event: mux closed") // NewTypeMux creates a running mux. func NewTypeMux() *TypeMux { return &TypeMux{subm: make(map[reflect.Type][]*muxsub)} } // Subscribe creates a subscription for events of the given types. The // subscription's channel is closed when it is unsubscribed // or the mux is closed. func (mux *TypeMux) Subscribe(types ...interface{}) Subscription { sub := newsub(mux) mux.mutex.Lock() if mux.stopped { mux.mutex.Unlock() close(sub.postC) } else { for _, t := range types { rtyp := reflect.TypeOf(t) oldsubs := mux.subm[rtyp] subs := make([]*muxsub, len(oldsubs)+1) copy(subs, oldsubs) subs[len(oldsubs)] = sub mux.subm[rtyp] = subs } mux.mutex.Unlock() } return sub } // Post sends an event to all receivers registered for the given type. // It returns ErrMuxClosed if the mux has been stopped. func (mux *TypeMux) Post(ev interface{}) error { rtyp := reflect.TypeOf(ev) mux.mutex.RLock() if mux.stopped { mux.mutex.RUnlock() return ErrMuxClosed } subs := mux.subm[rtyp] mux.mutex.RUnlock() for _, sub := range subs { sub.deliver(ev) } return nil } // Stop closes a mux. The mux can no longer be used. // Future Post calls will fail with ErrMuxClosed. // Stop blocks until all current deliveries have finished. func (mux *TypeMux) Stop() { mux.mutex.Lock() for _, subs := range mux.subm { for _, sub := range subs { sub.closewait() } } mux.subm = nil mux.stopped = true mux.mutex.Unlock() } func (mux *TypeMux) del(s *muxsub) { mux.mutex.Lock() for typ, subs := range mux.subm { if pos := find(subs, s); pos >= 0 { if len(subs) == 1 { delete(mux.subm, typ) } else { mux.subm[typ] = posdelete(subs, pos) } } } s.mux.mutex.Unlock() } func find(slice []*muxsub, item *muxsub) int { for i, v := range slice { if v == item { return i } } return -1 } func posdelete(slice []*muxsub, pos int) []*muxsub { news := make([]*muxsub, len(slice)-1) copy(news[:pos], slice[:pos]) copy(news[pos:], slice[pos+1:]) return news } type muxsub struct { mux *TypeMux mutex sync.RWMutex closing chan struct{} // these two are the same channel. they are stored separately so // postC can be set to nil without affecting the return value of // Chan. readC <-chan interface{} postC chan<- interface{} } func newsub(mux *TypeMux) *muxsub { c := make(chan interface{}) return &muxsub{ mux: mux, readC: c, postC: c, closing: make(chan struct{}), } } func (s *muxsub) Chan() <-chan interface{} { return s.readC } func (s *muxsub) Unsubscribe() { s.mux.del(s) s.closewait() } func (s *muxsub) closewait() { close(s.closing) s.mutex.Lock() close(s.postC) s.postC = nil s.mutex.Unlock() } func (s *muxsub) deliver(ev interface{}) { s.mutex.RLock() select { case s.postC <- ev: case <-s.closing: } s.mutex.RUnlock() }