/* * Copyright (c) 2013 IBM Corp. * * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: * Seth Hoenig * Allan Stockdill-Mander * Mike Robertson */ package mqtt import ( "container/list" "strings" "sync" "github.com/eclipse/paho.mqtt.golang/packets" ) // route is a type which associates MQTT Topic strings with a // callback to be executed upon the arrival of a message associated // with a subscription to that topic. type route struct { topic string callback MessageHandler } // match takes a slice of strings which represent the route being tested having been split on '/' // separators, and a slice of strings representing the topic string in the published message, similarly // split. // The function determines if the topic string matches the route according to the MQTT topic rules // and returns a boolean of the outcome func match(route []string, topic []string) bool { if len(route) == 0 { return len(topic) == 0 } if len(topic) == 0 { return route[0] == "#" } if route[0] == "#" { return true } if (route[0] == "+") || (route[0] == topic[0]) { return match(route[1:], topic[1:]) } return false } func routeIncludesTopic(route, topic string) bool { return match(routeSplit(route), strings.Split(topic, "/")) } // removes $share and sharename when splitting the route to allow // shared subscription routes to correctly match the topic func routeSplit(route string) []string { var result []string if strings.HasPrefix(route, "$share") { result = strings.Split(route, "/")[2:] } else { result = strings.Split(route, "/") } return result } // match takes the topic string of the published message and does a basic compare to the // string of the current Route, if they match it returns true func (r *route) match(topic string) bool { return r.topic == topic || routeIncludesTopic(r.topic, topic) } type router struct { sync.RWMutex routes *list.List defaultHandler MessageHandler messages chan *packets.PublishPacket } // newRouter returns a new instance of a Router and channel which can be used to tell the Router // to stop func newRouter() *router { router := &router{routes: list.New(), messages: make(chan *packets.PublishPacket)} return router } // addRoute takes a topic string and MessageHandler callback. It looks in the current list of // routes to see if there is already a matching Route. If there is it replaces the current // callback with the new one. If not it add a new entry to the list of Routes. func (r *router) addRoute(topic string, callback MessageHandler) { r.Lock() defer r.Unlock() for e := r.routes.Front(); e != nil; e = e.Next() { if e.Value.(*route).topic == topic { r := e.Value.(*route) r.callback = callback return } } r.routes.PushBack(&route{topic: topic, callback: callback}) } // deleteRoute takes a route string, looks for a matching Route in the list of Routes. If // found it removes the Route from the list. func (r *router) deleteRoute(topic string) { r.Lock() defer r.Unlock() for e := r.routes.Front(); e != nil; e = e.Next() { if e.Value.(*route).topic == topic { r.routes.Remove(e) return } } } // setDefaultHandler assigns a default callback that will be called if no matching Route // is found for an incoming Publish. func (r *router) setDefaultHandler(handler MessageHandler) { r.Lock() defer r.Unlock() r.defaultHandler = handler } // matchAndDispatch takes a channel of Message pointers as input and starts a go routine that // takes messages off the channel, matches them against the internal route list and calls the // associated callback (or the defaultHandler, if one exists and no other route matched). If // anything is sent down the stop channel the function will end. func (r *router) matchAndDispatch(messages <-chan *packets.PublishPacket, order bool, client *client) <-chan *PacketAndToken { var wg sync.WaitGroup ackOutChan := make(chan *PacketAndToken) // Channel returned to caller; closed when messages channel closed var ackInChan chan *PacketAndToken // ACKs generated by ackFunc get put onto this channel stopAckCopy := make(chan struct{}) // Closure requests stop of go routine copying ackInChan to ackOutChan ackCopyStopped := make(chan struct{}) // Closure indicates that it is safe to close ackOutChan goRoutinesDone := make(chan struct{}) // closed on wg.Done() if order { ackInChan = ackOutChan // When order = true no go routines are used so safe to use one channel and close when done } else { // When order = false ACK messages are sent in go routines so ackInChan cannot be closed until all goroutines done ackInChan = make(chan *PacketAndToken) go func() { // go routine to copy from ackInChan to ackOutChan until stopped for { select { case a := <-ackInChan: ackOutChan <- a case <-stopAckCopy: close(ackCopyStopped) // Signal main go routine that it is safe to close ackOutChan for { select { case <-ackInChan: // drain ackInChan to ensure all goRoutines can complete cleanly (ACK dropped) DEBUG.Println(ROU, "matchAndDispatch received acknowledgment after processing stopped (ACK dropped).") case <-goRoutinesDone: close(ackInChan) // Nothing further should be sent (a panic is probably better than silent failure) DEBUG.Println(ROU, "matchAndDispatch order=false copy goroutine exiting.") return } } } } }() } go func() { // Main go routine handling inbound messages for message := range messages { // DEBUG.Println(ROU, "matchAndDispatch received message") sent := false r.RLock() m := messageFromPublish(message, ackFunc(ackInChan, client.persist, message)) var handlers []MessageHandler for e := r.routes.Front(); e != nil; e = e.Next() { if e.Value.(*route).match(message.TopicName) { if order { handlers = append(handlers, e.Value.(*route).callback) } else { hd := e.Value.(*route).callback wg.Add(1) go func() { hd(client, m) m.Ack() wg.Done() }() } sent = true } } if !sent { if r.defaultHandler != nil { if order { handlers = append(handlers, r.defaultHandler) } else { wg.Add(1) go func() { r.defaultHandler(client, m) m.Ack() wg.Done() }() } } else { DEBUG.Println(ROU, "matchAndDispatch received message and no handler was available. Message will NOT be acknowledged.") } } r.RUnlock() for _, handler := range handlers { handler(client, m) m.Ack() } // DEBUG.Println(ROU, "matchAndDispatch handled message") } if order { close(ackOutChan) } else { // Ensure that nothing further will be written to ackOutChan before closing it close(stopAckCopy) <-ackCopyStopped close(ackOutChan) go func() { wg.Wait() // Note: If this remains running then the user has handlers that are not returning close(goRoutinesDone) }() } DEBUG.Println(ROU, "matchAndDispatch exiting") }() return ackOutChan }