func (self *Pump) subscribeRedis(channel string, msger *messenger.Messenger) {
c, err := redis.Dial("tcp", os.Getenv("REDIS_ADDR"))
if err != nil {
panic(err)
}
defer c.Close()
psc := redis.PubSubConn{c}
psc.Subscribe(channel)
for {
switch v := psc.Receive().(type) {
case redis.Message:
fmt.Printf("PMessage: channel:%s data:%s\n", v.Channel, v.Data)
msger.SendMessage(string(v.Data))
case redis.Subscription:
log.Printf("Subscription: kind:%s channel:%s count:%d\n", v.Kind, v.Channel, v.Count)
if v.Count == 0 {
return
}
case error:
log.Printf("error: %v\n", v)
return
}
}
}
func (self *Pump) Start(allowCrossDomain bool) {
r := mux.NewRouter()
r.HandleFunc("/subscribe/{event}", func(resp http.ResponseWriter, req *http.Request) {
vars := mux.Vars(req)
event := vars["event"]
self.runMsger(event, resp, allowCrossDomain)
// Done.
log.Println("Finished HTTP request at ", req.URL.Path)
})
r.HandleFunc("/subscribe/{event}/{id:[0-9]}+", func(resp http.ResponseWriter, req *http.Request) {
vars := mux.Vars(req)
event := vars["event"]
eventId := vars["id"]
msgerName := fmt.Sprintf("%v.%v", event, eventId)
self.runMsger(msgerName, resp, allowCrossDomain)
// Done.
log.Println("Finished HTTP request at ", req.URL.Path)
})
r.HandleFunc("/publish/{event}", func(resp http.ResponseWriter, req *http.Request) {
vars := mux.Vars(req)
name := vars["event"]
var msger *messenger.Messenger
if self.msgers[name] == nil {
msger = messenger.New(name)
self.RegisterMessenger(name, msger)
log.Println("SNS endpoint: listening /publish/" + msger.Name())
log.Println("SSE endpoint: listening /subscribe/" + msger.Name())
} else {
msger = self.msgers[name]
}
n := sns.NewFromRequest(req)
msger.SendMessage(n.Message)
})
log.Println("HTTP server port " + self.port)
http.ListenAndServe(self.port, r)
}
func (self *Pump) runMsger(msgerName string, resp http.ResponseWriter, allowCrossDomain bool) {
var msger *messenger.Messenger
if self.msgers[msgerName] == nil {
msger = messenger.New(msgerName)
self.RegisterMessenger(msgerName, msger)
// TODO: fix display format to subscribe/events/id
log.Println("SSE endpoint: listening /subscribe/" + msger.Name())
} else {
msger = self.msgers[msgerName]
}
go self.subscribeRedis(msgerName, msger)
// Make sure that the writer supports flushing.
//
f, ok := resp.(http.Flusher)
if !ok {
http.Error(resp, "Streaming unsupported", http.StatusInternalServerError)
return
}
c, ok := resp.(http.CloseNotifier)
if !ok {
http.Error(resp, "Close notification unsupported", http.StatusInternalServerError)
return
}
closer := c.CloseNotify()
// Create a new channel, over which the broker can
// send self client messages.
messageChan := make(chan string)
// Add self client to the map of those that should
// receive updates
msger.AddClient(messageChan)
// Remove self client from the map of attached clients
// when `EventHandler` exits.
defer func() {
msger.RemoveClient(messageChan)
}()
// Set the headers related to event streaming.
resp.Header().Set("Content-Type", "text/event-stream")
resp.Header().Set("Cache-Control", "no-cache")
resp.Header().Set("Connection", "keep-alive")
if allowCrossDomain {
resp.Header().Set("Access-Control-Allow-Origin", "*")
}
// Use the CloseNotifier interface
// https://code.google.com/p/go/source/detail?name=3292433291b2
//
// NOTE: we could loop endlessly; however, then you
// could not easily detect clients that dettach and the
// server would continue to send them messages long after
// they're gone due to the "keep-alive" header. One of
// the nifty aspects of SSE is that clients automatically
// reconnect when they lose their connection.
//
for {
select {
case msg := <-messageChan:
fmt.Fprintf(resp, "data: %s\n\n", msg)
f.Flush()
case <-closer:
log.Println("Closing connection")
return
}
}
}
