package birc import ( "crypto/tls" "fmt" "github.com/42wim/matterbridge/bridge/config" log "github.com/Sirupsen/logrus" ircm "github.com/sorcix/irc" "github.com/thoj/go-ircevent" "regexp" "sort" "strconv" "strings" "time" ) type Birc struct { i *irc.Connection Nick string names map[string][]string Config *config.Protocol Remote chan config.Message connected chan struct{} Local chan config.Message // local queue for flood control Account string } var flog *log.Entry var protocol = "irc" func init() { flog = log.WithFields(log.Fields{"module": protocol}) } func New(cfg config.Protocol, account string, c chan config.Message) *Birc { b := &Birc{} b.Config = &cfg b.Nick = b.Config.Nick b.Remote = c b.names = make(map[string][]string) b.Account = account b.connected = make(chan struct{}) if b.Config.MessageDelay == 0 { b.Config.MessageDelay = 1300 } if b.Config.MessageQueue == 0 { b.Config.MessageQueue = 30 } return b } func (b *Birc) Command(msg *config.Message) string { switch msg.Text { case "!users": b.i.AddCallback(ircm.RPL_NAMREPLY, b.storeNames) b.i.AddCallback(ircm.RPL_ENDOFNAMES, b.endNames) b.i.SendRaw("NAMES " + msg.Channel) } return "" } func (b *Birc) Connect() error { b.Local = make(chan config.Message, b.Config.MessageQueue+10) flog.Infof("Connecting %s", b.Config.Server) i := irc.IRC(b.Config.Nick, b.Config.Nick) if log.GetLevel() == log.DebugLevel { i.Debug = true } i.UseTLS = b.Config.UseTLS i.UseSASL = b.Config.UseSASL i.SASLLogin = b.Config.NickServNick i.SASLPassword = b.Config.NickServPassword i.TLSConfig = &tls.Config{InsecureSkipVerify: b.Config.SkipTLSVerify} if b.Config.Password != "" { i.Password = b.Config.Password } i.AddCallback(ircm.RPL_WELCOME, b.handleNewConnection) err := i.Connect(b.Config.Server) if err != nil { return err } b.i = i select { case <-b.connected: flog.Info("Connection succeeded") case <-time.After(time.Second * 30): return fmt.Errorf("connection timed out") } i.Debug = false go b.doSend() return nil } func (b *Birc) Disconnect() error { //b.i.Disconnect() close(b.Local) return nil } func (b *Birc) JoinChannel(channel string) error { b.i.Join(channel) return nil } func (b *Birc) Send(msg config.Message) error { flog.Debugf("Receiving %#v", msg) if msg.Account == b.Account { return nil } if strings.HasPrefix(msg.Text, "!") { b.Command(&msg) return nil } for _, text := range strings.Split(msg.Text, "\n") { if len(b.Local) < b.Config.MessageQueue { if len(b.Local) == b.Config.MessageQueue-1 { text = text + " " } b.Local <- config.Message{Text: text, Username: msg.Username, Channel: msg.Channel} } else { flog.Debugf("flooding, dropping message (queue at %d)", len(b.Local)) } } return nil } func (b *Birc) doSend() { rate := time.Millisecond * time.Duration(b.Config.MessageDelay) throttle := time.Tick(rate) for msg := range b.Local { <-throttle b.i.Privmsg(msg.Channel, msg.Username+msg.Text) } } func (b *Birc) endNames(event *irc.Event) { channel := event.Arguments[1] sort.Strings(b.names[channel]) maxNamesPerPost := (300 / b.nicksPerRow()) * b.nicksPerRow() continued := false for len(b.names[channel]) > maxNamesPerPost { b.Remote <- config.Message{Username: b.Nick, Text: b.formatnicks(b.names[channel][0:maxNamesPerPost], continued), Channel: channel, Account: b.Account} b.names[channel] = b.names[channel][maxNamesPerPost:] continued = true } b.Remote <- config.Message{Username: b.Nick, Text: b.formatnicks(b.names[channel], continued), Channel: channel, Account: b.Account} b.names[channel] = nil b.i.ClearCallback(ircm.RPL_NAMREPLY) b.i.ClearCallback(ircm.RPL_ENDOFNAMES) } func (b *Birc) handleNewConnection(event *irc.Event) { flog.Debug("Registering callbacks") i := b.i b.Nick = event.Arguments[0] i.AddCallback("PRIVMSG", b.handlePrivMsg) i.AddCallback("CTCP_ACTION", b.handlePrivMsg) i.AddCallback(ircm.RPL_TOPICWHOTIME, b.handleTopicWhoTime) i.AddCallback(ircm.NOTICE, b.handleNotice) //i.AddCallback(ircm.RPL_MYINFO, func(e *irc.Event) { flog.Infof("%s: %s", e.Code, strings.Join(e.Arguments[1:], " ")) }) i.AddCallback("PING", func(e *irc.Event) { i.SendRaw("PONG :" + e.Message()) flog.Debugf("PING/PONG") }) i.AddCallback("JOIN", b.handleJoinPart) i.AddCallback("PART", b.handleJoinPart) i.AddCallback("QUIT", b.handleJoinPart) i.AddCallback("KICK", b.handleJoinPart) i.AddCallback("*", b.handleOther) // we are now fully connected b.connected <- struct{}{} } func (b *Birc) handleJoinPart(event *irc.Event) { channel := event.Arguments[0] if event.Code == "KICK" { flog.Infof("Got kicked from %s by %s", channel, event.Nick) b.Remote <- config.Message{Username: "system", Text: "rejoin", Channel: channel, Account: b.Account, Event: config.EVENT_REJOIN_CHANNELS} return } if event.Code == "QUIT" { if event.Nick == b.Nick && strings.Contains(event.Raw, "Ping timeout") { flog.Infof("%s reconnecting ..", b.Account) b.Remote <- config.Message{Username: "system", Text: "reconnect", Channel: channel, Account: b.Account, Event: config.EVENT_FAILURE} return } } flog.Debugf("Sending JOIN_LEAVE event from %s to gateway", b.Account) b.Remote <- config.Message{Username: "system", Text: event.Nick + " " + strings.ToLower(event.Code) + "s", Channel: channel, Account: b.Account, Event: config.EVENT_JOIN_LEAVE} flog.Debugf("handle %#v", event) } func (b *Birc) handleNotice(event *irc.Event) { if strings.Contains(event.Message(), "This nickname is registered") && event.Nick == b.Config.NickServNick { b.i.Privmsg(b.Config.NickServNick, "IDENTIFY "+b.Config.NickServPassword) } else { b.handlePrivMsg(event) } } func (b *Birc) handleOther(event *irc.Event) { switch event.Code { case "372", "375", "376", "250", "251", "252", "253", "254", "255", "265", "266", "002", "003", "004", "005": return } flog.Debugf("%#v", event.Raw) } func (b *Birc) handlePrivMsg(event *irc.Event) { // don't forward queries to the bot if event.Arguments[0] == b.Nick { return } // don't forward message from ourself if event.Nick == b.Nick { return } flog.Debugf("handlePrivMsg() %s %s %#v", event.Nick, event.Message(), event) msg := "" if event.Code == "CTCP_ACTION" { msg = event.Nick + " " } msg += event.Message() // strip IRC colors re := regexp.MustCompile(`[[:cntrl:]](\d+,|)\d+`) msg = re.ReplaceAllString(msg, "") flog.Debugf("Sending message from %s on %s to gateway", event.Arguments[0], b.Account) b.Remote <- config.Message{Username: event.Nick, Text: msg, Channel: event.Arguments[0], Account: b.Account} } func (b *Birc) handleTopicWhoTime(event *irc.Event) { parts := strings.Split(event.Arguments[2], "!") t, err := strconv.ParseInt(event.Arguments[3], 10, 64) if err != nil { flog.Errorf("Invalid time stamp: %s", event.Arguments[3]) } user := parts[0] if len(parts) > 1 { user += " [" + parts[1] + "]" } flog.Debugf("%s: Topic set by %s [%s]", event.Code, user, time.Unix(t, 0)) } func (b *Birc) nicksPerRow() int { return 4 /* if b.Config.Mattermost.NicksPerRow < 1 { return 4 } return b.Config.Mattermost.NicksPerRow */ } func (b *Birc) storeNames(event *irc.Event) { channel := event.Arguments[2] b.names[channel] = append( b.names[channel], strings.Split(strings.TrimSpace(event.Message()), " ")...) } func (b *Birc) formatnicks(nicks []string, continued bool) string { return plainformatter(nicks, b.nicksPerRow()) /* switch b.Config.Mattermost.NickFormatter { case "table": return tableformatter(nicks, b.nicksPerRow(), continued) default: return plainformatter(nicks, b.nicksPerRow()) } */ }