// 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. /* This package provides an event based IRC client library. It allows to register callbacks for the events you need to handle. Its features include handling standard CTCP, reconnecting on errors and detecting stones servers. Details of the IRC protocol can be found in the following RFCs: https://tools.ietf.org/html/rfc1459 https://tools.ietf.org/html/rfc2810 https://tools.ietf.org/html/rfc2811 https://tools.ietf.org/html/rfc2812 https://tools.ietf.org/html/rfc2813 The details of the client-to-client protocol (CTCP) can be found here: http://www.irchelp.org/irchelp/rfc/ctcpspec.html */ package irc import ( "bufio" "bytes" "crypto/tls" "errors" "fmt" "log" "net" "os" "strconv" "strings" "time" ) const ( VERSION = "go-ircevent v2.1" ) var ErrDisconnected = errors.New("Disconnect Called") // Read data from a connection. To be used as a goroutine. func (irc *Connection) readLoop() { defer irc.Done() br := bufio.NewReaderSize(irc.socket, 512) errChan := irc.ErrorChan() for { select { case <-irc.end: return default: // Set a read deadline based on the combined timeout and ping frequency // We should ALWAYS have received a response from the server within the timeout // after our own pings if irc.socket != nil { irc.socket.SetReadDeadline(time.Now().Add(irc.Timeout + irc.PingFreq)) } msg, err := br.ReadString('\n') // We got past our blocking read, so bin timeout if irc.socket != nil { var zero time.Time irc.socket.SetReadDeadline(zero) } if err != nil { errChan <- err return } if irc.Debug { irc.Log.Printf("<-- %s\n", strings.TrimSpace(msg)) } irc.Lock() irc.lastMessage = time.Now() irc.Unlock() event, err := parseToEvent(msg) event.Connection = irc if err == nil { /* XXX: len(args) == 0: args should be empty */ irc.RunCallbacks(event) } } } } // Unescape tag values as defined in the IRCv3.2 message tags spec // http://ircv3.net/specs/core/message-tags-3.2.html func unescapeTagValue(value string) string { value = strings.Replace(value, "\\:", ";", -1) value = strings.Replace(value, "\\s", " ", -1) value = strings.Replace(value, "\\\\", "\\", -1) value = strings.Replace(value, "\\r", "\r", -1) value = strings.Replace(value, "\\n", "\n", -1) return value } //Parse raw irc messages func parseToEvent(msg string) (*Event, error) { msg = strings.TrimSuffix(msg, "\n") //Remove \r\n msg = strings.TrimSuffix(msg, "\r") event := &Event{Raw: msg} if len(msg) < 5 { return nil, errors.New("Malformed msg from server") } if msg[0] == '@' { // IRCv3 Message Tags if i := strings.Index(msg, " "); i > -1 { event.Tags = make(map[string]string) tags := strings.Split(msg[1:i], ";") for _, data := range tags { parts := strings.SplitN(data, "=", 2) if len(parts) == 1 { event.Tags[parts[0]] = "" } else { event.Tags[parts[0]] = unescapeTagValue(parts[1]) } } msg = msg[i+1 : len(msg)] } else { return nil, errors.New("Malformed msg from server") } } if msg[0] == ':' { if i := strings.Index(msg, " "); i > -1 { event.Source = msg[1:i] msg = msg[i+1 : len(msg)] } else { return nil, errors.New("Malformed msg from server") } if i, j := strings.Index(event.Source, "!"), strings.Index(event.Source, "@"); i > -1 && j > -1 && i < j { event.Nick = event.Source[0:i] event.User = event.Source[i+1 : j] event.Host = event.Source[j+1 : len(event.Source)] } } split := strings.SplitN(msg, " :", 2) args := strings.Split(split[0], " ") event.Code = strings.ToUpper(args[0]) event.Arguments = args[1:] if len(split) > 1 { event.Arguments = append(event.Arguments, split[1]) } return event, nil } // Loop to write to a connection. To be used as a goroutine. func (irc *Connection) writeLoop() { defer irc.Done() errChan := irc.ErrorChan() for { select { case <-irc.end: return case b, ok := <-irc.pwrite: if !ok || b == "" || irc.socket == nil { return } if irc.Debug { irc.Log.Printf("--> %s\n", strings.TrimSpace(b)) } // Set a write deadline based on the time out irc.socket.SetWriteDeadline(time.Now().Add(irc.Timeout)) _, err := irc.socket.Write([]byte(b)) // Past blocking write, bin timeout var zero time.Time irc.socket.SetWriteDeadline(zero) if err != nil { errChan <- err return } } } } // Pings the server if we have not received any messages for 5 minutes // to keep the connection alive. To be used as a goroutine. func (irc *Connection) pingLoop() { defer irc.Done() ticker := time.NewTicker(1 * time.Minute) // Tick every minute for monitoring ticker2 := time.NewTicker(irc.PingFreq) // Tick at the ping frequency. for { select { case <-ticker.C: //Ping if we haven't received anything from the server within the keep alive period if time.Since(irc.lastMessage) >= irc.KeepAlive { irc.SendRawf("PING %d", time.Now().UnixNano()) } case <-ticker2.C: //Ping at the ping frequency irc.SendRawf("PING %d", time.Now().UnixNano()) //Try to recapture nickname if it's not as configured. irc.Lock() if irc.nick != irc.nickcurrent { irc.nickcurrent = irc.nick irc.SendRawf("NICK %s", irc.nick) } irc.Unlock() case <-irc.end: ticker.Stop() ticker2.Stop() return } } } func (irc *Connection) isQuitting() bool { irc.Lock() defer irc.Unlock() return irc.quit } // Main loop to control the connection. func (irc *Connection) Loop() { errChan := irc.ErrorChan() for !irc.isQuitting() { err := <-errChan close(irc.end) irc.Wait() for !irc.isQuitting() { irc.Log.Printf("Error, disconnected: %s\n", err) if err = irc.Reconnect(); err != nil { irc.Log.Printf("Error while reconnecting: %s\n", err) time.Sleep(60 * time.Second) } else { errChan = irc.ErrorChan() break } } } } // Quit the current connection and disconnect from the server // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.1.6 func (irc *Connection) Quit() { quit := "QUIT" if irc.QuitMessage != "" { quit = fmt.Sprintf("QUIT :%s", irc.QuitMessage) } irc.SendRaw(quit) irc.Lock() irc.stopped = true irc.quit = true irc.Unlock() } // Use the connection to join a given channel. // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.2.1 func (irc *Connection) Join(channel string) { irc.pwrite <- fmt.Sprintf("JOIN %s\r\n", channel) } // Leave a given channel. // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.2.2 func (irc *Connection) Part(channel string) { irc.pwrite <- fmt.Sprintf("PART %s\r\n", channel) } // Send a notification to a nickname. This is similar to Privmsg but must not receive replies. // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.4.2 func (irc *Connection) Notice(target, message string) { irc.pwrite <- fmt.Sprintf("NOTICE %s :%s\r\n", target, message) } // Send a formated notification to a nickname. // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.4.2 func (irc *Connection) Noticef(target, format string, a ...interface{}) { irc.Notice(target, fmt.Sprintf(format, a...)) } // Send (action) message to a target (channel or nickname). // No clear RFC on this one... func (irc *Connection) Action(target, message string) { irc.pwrite <- fmt.Sprintf("PRIVMSG %s :\001ACTION %s\001\r\n", target, message) } // Send formatted (action) message to a target (channel or nickname). func (irc *Connection) Actionf(target, format string, a ...interface{}) { irc.Action(target, fmt.Sprintf(format, a...)) } // Send (private) message to a target (channel or nickname). // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.4.1 func (irc *Connection) Privmsg(target, message string) { irc.pwrite <- fmt.Sprintf("PRIVMSG %s :%s\r\n", target, message) } // Send formated string to specified target (channel or nickname). func (irc *Connection) Privmsgf(target, format string, a ...interface{}) { irc.Privmsg(target, fmt.Sprintf(format, a...)) } // Kick from with . For no message, pass empty string ("") func (irc *Connection) Kick(user, channel, msg string) { var cmd bytes.Buffer cmd.WriteString(fmt.Sprintf("KICK %s %s", channel, user)) if msg != "" { cmd.WriteString(fmt.Sprintf(" :%s", msg)) } cmd.WriteString("\r\n") irc.pwrite <- cmd.String() } // Kick all from with . For no message, pass // empty string ("") func (irc *Connection) MultiKick(users []string, channel string, msg string) { var cmd bytes.Buffer cmd.WriteString(fmt.Sprintf("KICK %s %s", channel, strings.Join(users, ","))) if msg != "" { cmd.WriteString(fmt.Sprintf(" :%s", msg)) } cmd.WriteString("\r\n") irc.pwrite <- cmd.String() } // Send raw string. func (irc *Connection) SendRaw(message string) { irc.pwrite <- message + "\r\n" } // Send raw formated string. func (irc *Connection) SendRawf(format string, a ...interface{}) { irc.SendRaw(fmt.Sprintf(format, a...)) } // Set (new) nickname. // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.1.2 func (irc *Connection) Nick(n string) { irc.nick = n irc.SendRawf("NICK %s", n) } // Determine nick currently used with the connection. func (irc *Connection) GetNick() string { return irc.nickcurrent } // Query information about a particular nickname. // RFC 1459: https://tools.ietf.org/html/rfc1459#section-4.5.2 func (irc *Connection) Whois(nick string) { irc.SendRawf("WHOIS %s", nick) } // Query information about a given nickname in the server. // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.5.1 func (irc *Connection) Who(nick string) { irc.SendRawf("WHO %s", nick) } // Set different modes for a target (channel or nickname). // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.2.3 func (irc *Connection) Mode(target string, modestring ...string) { if len(modestring) > 0 { mode := strings.Join(modestring, " ") irc.SendRawf("MODE %s %s", target, mode) return } irc.SendRawf("MODE %s", target) } func (irc *Connection) ErrorChan() chan error { return irc.Error } // Returns true if the connection is connected to an IRC server. func (irc *Connection) Connected() bool { return !irc.stopped } // A disconnect sends all buffered messages (if possible), // stops all goroutines and then closes the socket. func (irc *Connection) Disconnect() { if irc.socket != nil { irc.socket.Close() } irc.ErrorChan() <- ErrDisconnected } // Reconnect to a server using the current connection. func (irc *Connection) Reconnect() error { irc.end = make(chan struct{}) return irc.Connect(irc.Server) } // Connect to a given server using the current connection configuration. // This function also takes care of identification if a password is provided. // RFC 1459 details: https://tools.ietf.org/html/rfc1459#section-4.1 func (irc *Connection) Connect(server string) error { irc.Server = server // mark Server as stopped since there can be an error during connect irc.stopped = true // make sure everything is ready for connection if len(irc.Server) == 0 { return errors.New("empty 'server'") } if strings.Count(irc.Server, ":") != 1 { return errors.New("wrong number of ':' in address") } if strings.Index(irc.Server, ":") == 0 { return errors.New("hostname is missing") } if strings.Index(irc.Server, ":") == len(irc.Server)-1 { return errors.New("port missing") } // check for valid range ports := strings.Split(irc.Server, ":")[1] port, err := strconv.Atoi(ports) if err != nil { return errors.New("extracting port failed") } if !((port >= 0) && (port <= 65535)) { return errors.New("port number outside valid range") } if irc.Log == nil { return errors.New("'Log' points to nil") } if len(irc.nick) == 0 { return errors.New("empty 'nick'") } if len(irc.user) == 0 { return errors.New("empty 'user'") } if irc.UseTLS { dialer := &net.Dialer{Timeout: irc.Timeout} irc.socket, err = tls.DialWithDialer(dialer, "tcp", irc.Server, irc.TLSConfig) } else { irc.socket, err = net.DialTimeout("tcp", irc.Server, irc.Timeout) } if err != nil { return err } irc.stopped = false irc.Log.Printf("Connected to %s (%s)\n", irc.Server, irc.socket.RemoteAddr()) irc.pwrite = make(chan string, 10) irc.Error = make(chan error, 2) irc.Add(3) go irc.readLoop() go irc.writeLoop() go irc.pingLoop() if len(irc.Password) > 0 { irc.pwrite <- fmt.Sprintf("PASS %s\r\n", irc.Password) } err = irc.negotiateCaps() if err != nil { return err } 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 } // Negotiate IRCv3 capabilities func (irc *Connection) negotiateCaps() error { saslResChan := make(chan *SASLResult) if irc.UseSASL { irc.RequestCaps = append(irc.RequestCaps, "sasl") irc.setupSASLCallbacks(saslResChan) } if len(irc.RequestCaps) == 0 { return nil } cap_chan := make(chan bool, len(irc.RequestCaps)) irc.AddCallback("CAP", func(e *Event) { if len(e.Arguments) != 3 { return } command := e.Arguments[1] if command == "LS" { missing_caps := len(irc.RequestCaps) for _, cap_name := range strings.Split(e.Arguments[2], " ") { for _, req_cap := range irc.RequestCaps { if cap_name == req_cap { irc.pwrite <- fmt.Sprintf("CAP REQ :%s\r\n", cap_name) missing_caps-- } } } for i := 0; i < missing_caps; i++ { cap_chan <- true } } else if command == "ACK" || command == "NAK" { for _, cap_name := range strings.Split(strings.TrimSpace(e.Arguments[2]), " ") { if cap_name == "" { continue } if command == "ACK" { irc.AcknowledgedCaps = append(irc.AcknowledgedCaps, cap_name) } cap_chan <- true } } }) irc.pwrite <- "CAP LS\r\n" if irc.UseSASL { select { case res := <-saslResChan: if res.Failed { close(saslResChan) return res.Err } case <-time.After(time.Second * 15): close(saslResChan) return errors.New("SASL setup timed out. This shouldn't happen.") } } // Wait for all capabilities to be ACKed or NAKed before ending negotiation for i := 0; i < len(irc.RequestCaps); i++ { <-cap_chan } irc.pwrite <- fmt.Sprintf("CAP END\r\n") return nil } // Create a connection with the (publicly visible) nickname and username. // The nickname is later used to address the user. Returns nil if nick // or user are empty. func IRC(nick, user string) *Connection { // catch invalid values if len(nick) == 0 { return nil } if len(user) == 0 { return nil } irc := &Connection{ nick: nick, nickcurrent: nick, user: user, Log: log.New(os.Stdout, "", log.LstdFlags), end: make(chan struct{}), Version: VERSION, KeepAlive: 4 * time.Minute, Timeout: 1 * time.Minute, PingFreq: 15 * time.Minute, SASLMech: "PLAIN", QuitMessage: "", } irc.setupCallbacks() return irc }