// Copyright 2009 Thomas Jager All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package irc import ( "bufio" "crypto/tls" "fmt" "log" "net" "os" "strings" "time" ) const ( VERSION = "go-ircevent v2.0" ) func (irc *Connection) readLoop() { br := bufio.NewReader(irc.socket) for { msg, err := br.ReadString('\n') if err != nil { irc.Error <- err break } irc.lastMessage = time.Now() msg = msg[0 : len(msg)-2] //Remove \r\n event := &Event{Raw: msg} if msg[0] == ':' { if i := strings.Index(msg, " "); i > -1 { event.Source = msg[1:i] msg = msg[i+1 : len(msg)] } else { irc.log.Printf("Misformed msg from server: %#s\n", msg) } if i, j := strings.Index(event.Source, "!"), strings.Index(event.Source, "@"); i > -1 && j > -1 { event.Nick = event.Source[0:i] event.User = event.Source[i+1 : j] event.Host = event.Source[j+1 : len(event.Source)] } } args := strings.SplitN(msg, " :", 2) if len(args) > 1 { event.Message = args[1] } args = strings.Split(args[0], " ") event.Code = strings.ToUpper(args[0]) if len(args) > 1 { event.Arguments = args[1:len(args)] } /* XXX: len(args) == 0: args should be empty */ irc.RunCallbacks(event) } irc.syncreader <- true } func (irc *Connection) writeLoop() { b, ok := <-irc.pwrite for ok { if b == "" || irc.socket == nil { break } irc.log.Printf("--> %s\n", b) _, err := irc.socket.Write([]byte(b)) if err != nil { irc.log.Printf("%s\n", err) irc.Error <- err break } b, ok = <-irc.pwrite } irc.syncwriter <- true } //Pings the server if we have not recived any messages for 5 minutes func (irc *Connection) pingLoop() { irc.ticker = time.NewTicker(1 * time.Minute) //Tick every minute. irc.ticker2 = time.NewTicker(15 * time.Minute) //Tick every 15 minutes. for { select { case <-irc.ticker.C: //Ping if we haven't recived anything from the server within 4 minutes if time.Since(irc.lastMessage) >= (4 * time.Minute) { irc.SendRawf("PING %d", time.Now().UnixNano()) } case <-irc.ticker2.C: //Ping every 15 minutes. irc.SendRawf("PING %d", time.Now().UnixNano()) //Try to recapture nickname if it's not as configured. if irc.nick != irc.nickcurrent { irc.nickcurrent = irc.nick irc.SendRawf("NICK %s", irc.nick) } case <-irc.endping: irc.ticker.Stop() irc.ticker2.Stop() irc.syncpinger <- true return } } } func (irc *Connection) Cycle() { irc.SendRaw("QUIT") irc.Reconnect() } func (irc *Connection) Quit() { irc.quitting = true irc.SendRaw("QUIT") } func (irc *Connection) Join(channel string) { irc.pwrite <- fmt.Sprintf("JOIN %s\r\n", channel) } func (irc *Connection) Part(channel string) { irc.pwrite <- fmt.Sprintf("PART %s\r\n", channel) } func (irc *Connection) Notice(target, message string) { irc.pwrite <- fmt.Sprintf("NOTICE %s :%s\r\n", target, message) } func (irc *Connection) Noticef(target, format string, a ...interface{}) { irc.Notice(target, fmt.Sprintf(format, a...)) } func (irc *Connection) Privmsg(target, message string) { irc.pwrite <- fmt.Sprintf("PRIVMSG %s :%s\r\n", target, message) } func (irc *Connection) Privmsgf(target, format string, a ...interface{}) { irc.Privmsg(target, fmt.Sprintf(format, a...)) } func (irc *Connection) SendRaw(message string) { irc.pwrite <- fmt.Sprintf("%s\r\n", message) } func (irc *Connection) SendRawf(format string, a ...interface{}) { irc.SendRaw(fmt.Sprintf(format, a...)) } func (irc *Connection) Nick(n string) { irc.nick = n irc.SendRawf("NICK %s", n) } func (irc *Connection) GetNick() string { return irc.nickcurrent } func (irc *Connection) Reconnect() error { close(irc.pwrite) close(irc.pread) irc.endping <- true irc.log.Printf("Syncing Threads\n") irc.log.Printf("Syncing Reader\n") <-irc.syncreader irc.log.Printf("Syncing Writer\n") <-irc.syncwriter irc.log.Printf("Syncing Pinger\n") <-irc.syncpinger irc.log.Printf("Syncing Threads Done\n") for { irc.log.Printf("Reconnecting to %s\n", irc.server) var err error irc.Connect(irc.server) if err == nil { break } irc.log.Printf("Error: %s\n", err) } return nil } func (irc *Connection) Loop() { for !irc.quitting { e := <-irc.Error if irc.quitting { break } irc.log.Printf("Error: %s\n", e) irc.Reconnect() } close(irc.pwrite) close(irc.pread) irc.endping <- true irc.log.Printf("Syncing Threads\n") irc.log.Printf("Syncing Reader\n") <-irc.syncreader irc.log.Printf("Syncing Writer\n") <-irc.syncwriter irc.log.Printf("Syncing Pinger\n") <-irc.syncpinger irc.log.Printf("Syncing Threads Done\n") } func (irc *Connection) Connect(server string) error { irc.server = server var err error irc.log.Printf("Connecting to %s\n", irc.server) if irc.UseTLS { irc.socket, err = tls.Dial("tcp", irc.server, irc.TLSConfig) } else { irc.socket, err = net.Dial("tcp", irc.server) } if err != nil { return err } irc.log.Printf("Connected to %s (%s)\n", irc.server, irc.socket.RemoteAddr()) return irc.postConnect() } func (irc *Connection) postConnect() error { irc.pread = make(chan string, 100) irc.pwrite = make(chan string, 100) irc.Error = make(chan error, 10) irc.syncreader = make(chan bool) irc.syncwriter = make(chan bool) irc.syncpinger = make(chan bool) irc.endping = make(chan bool) go irc.readLoop() go irc.writeLoop() go irc.pingLoop() if len(irc.Password) > 0 { irc.pwrite <- fmt.Sprintf("PASS %s\r\n", irc.Password) } irc.pwrite <- fmt.Sprintf("NICK %s\r\n", irc.nick) irc.pwrite <- fmt.Sprintf("USER %s 0.0.0.0 0.0.0.0 :%s\r\n", irc.user, irc.user) return nil } func IRC(nick, user string) *Connection { irc := new(Connection) irc.registered = false irc.pread = make(chan string, 100) irc.pwrite = make(chan string, 100) irc.Error = make(chan error) irc.nick = nick irc.user = user irc.VerboseCallbackHandler = false irc.log = log.New(os.Stdout, "", log.LstdFlags) irc.setupCallbacks() return irc }