package pubsub import ( "errors" "sync" ) var ( // ErrUnsubscribed is returned by Err when a client unsubscribes. ErrUnsubscribed = errors.New("client unsubscribed") // ErrOutOfCapacity is returned by Err when a client is not pulling messages // fast enough. Note the client's subscription will be terminated. ErrOutOfCapacity = errors.New("client is not pulling messages fast enough") ) // A Subscription represents a client subscription for a particular query and // consists of three things: // 1) channel onto which messages and events are published // 2) channel which is closed if a client is too slow or choose to unsubscribe // 3) err indicating the reason for (2) type Subscription struct { out chan Message cancelled chan struct{} mtx sync.RWMutex err error } // NewSubscription returns a new subscription with the given outCapacity. func NewSubscription(outCapacity int) *Subscription { return &Subscription{ out: make(chan Message, outCapacity), cancelled: make(chan struct{}), } } // Out returns a channel onto which messages and events are published. // Unsubscribe/UnsubscribeAll does not close the channel to avoid clients from // receiving a nil message. func (s *Subscription) Out() <-chan Message { return s.out } // Cancelled returns a channel that's closed when the subscription is // terminated and supposed to be used in a select statement. func (s *Subscription) Cancelled() <-chan struct{} { return s.cancelled } // Err returns nil if the channel returned by Cancelled is not yet closed. // If the channel is closed, Err returns a non-nil error explaining why: // - ErrUnsubscribed if the subscriber choose to unsubscribe, // - ErrOutOfCapacity if the subscriber is not pulling messages fast enough // and the channel returned by Out became full, // After Err returns a non-nil error, successive calls to Err return the same // error. func (s *Subscription) Err() error { s.mtx.RLock() defer s.mtx.RUnlock() return s.err } func (s *Subscription) cancel(err error) { s.mtx.Lock() s.err = err s.mtx.Unlock() close(s.cancelled) } // Message glues data and events together. type Message struct { data interface{} events map[string][]string } func NewMessage(data interface{}, events map[string][]string) Message { return Message{data, events} } // Data returns an original data published. func (msg Message) Data() interface{} { return msg.data } // Events returns events, which matched the client's query. func (msg Message) Events() map[string][]string { return msg.events }