package irc import ( "bufio" "bytes" "crypto/tls" "crypto/x509" "errors" "fmt" "net" "strings" "time" ) var ( ErrBadProtocol = errors.New("This server does not speak IRC") ) func (c *Client) Connect(address string) { if idx := strings.Index(address, ":"); idx < 0 { c.Host = address if c.TLS { address += ":6697" } else { address += ":6667" } } else { c.Host = address[:idx] } c.Server = address c.dialer = &net.Dialer{Timeout: 10 * time.Second} c.connChange(false, nil) go c.run() } func (c *Client) Reconnect() { close(c.reconnect) } func (c *Client) Write(data string) { c.out <- data + "\r\n" } func (c *Client) Writef(format string, a ...interface{}) { c.out <- fmt.Sprintf(format+"\r\n", a...) } func (c *Client) write(data string) { c.conn.Write([]byte(data + "\r\n")) } func (c *Client) writef(format string, a ...interface{}) { fmt.Fprintf(c.conn, format+"\r\n", a...) } func (c *Client) run() { c.tryConnect() for { select { case <-c.quit: c.setRegistered(false) if c.Connected() { c.disconnect() } c.sendRecv.Wait() close(c.Messages) return case <-c.reconnect: c.setRegistered(false) if c.Connected() { c.disconnect() } c.sendRecv.Wait() c.reconnect = make(chan struct{}) time.Sleep(c.backoff.Duration()) c.tryConnect() } } } type ConnectionState struct { Connected bool Error error } func (c *Client) connChange(connected bool, err error) { c.ConnectionChanged <- ConnectionState{ Connected: connected, Error: err, } } func (c *Client) disconnect() { c.lock.Lock() c.connected = false c.lock.Unlock() c.conn.Close() } func (c *Client) tryConnect() { for { select { case <-c.quit: return default: } err := c.connect() if err != nil { c.connChange(false, err) if _, ok := err.(x509.UnknownAuthorityError); ok { return } } else { return } time.Sleep(c.backoff.Duration()) } } func (c *Client) connect() error { c.lock.Lock() defer c.lock.Unlock() if c.TLS { conn, err := tls.DialWithDialer(c.dialer, "tcp", c.Server, c.TLSConfig) if err != nil { return err } c.conn = conn } else { conn, err := c.dialer.Dial("tcp", c.Server) if err != nil { return err } c.conn = conn } c.connected = true c.connChange(true, nil) c.scan = bufio.NewScanner(c.conn) c.scan.Buffer(c.recvBuf, cap(c.recvBuf)) c.register() c.sendRecv.Add(1) go c.recv() return nil } func (c *Client) send() { defer c.sendRecv.Done() for { select { case <-c.quit: return case <-c.reconnect: return case msg := <-c.out: _, err := c.conn.Write([]byte(msg)) if err != nil { return } } } } func (c *Client) recv() { defer c.sendRecv.Done() for { if !c.scan.Scan() { select { case <-c.quit: return default: c.connChange(false, nil) c.Reconnect() return } } b := bytes.Trim(c.scan.Bytes(), " ") if len(b) == 0 { continue } msg := ParseMessage(string(b)) if msg == nil { close(c.quit) c.connChange(false, ErrBadProtocol) return } switch msg.Command { case Ping: go c.write("PONG :" + msg.LastParam()) case Join: if c.EqualFold(msg.Nick, c.GetNick()) { c.addChannel(msg.Params[0]) } case Nick: if c.EqualFold(msg.Nick, c.GetNick()) { c.setNick(msg.LastParam()) } case Privmsg: if ctcp := msg.ToCTCP(); ctcp != nil { c.handleCTCP(ctcp) } case ReplyWelcome: c.setNick(msg.Params[0]) c.setRegistered(true) c.flushChannels() c.backoff.Reset() c.sendRecv.Add(1) go c.send() case ReplyISupport: c.Features.Parse(msg.Params) case ErrNicknameInUse: if c.HandleNickInUse != nil { go c.writeNick(c.HandleNickInUse(msg.Params[1])) } } c.Messages <- msg } } func (c *Client) handleCTCP(ctcp *CTCP) { switch ctcp.Command { case "DCC": if strings.HasPrefix(ctcp.Params, "SEND") { if dccSend := ParseDCCSend(ctcp); dccSend != nil { go c.Download(dccSend) } } } }