package birc import ( "bytes" "crypto/tls" "fmt" "github.com/42wim/matterbridge/bridge" "github.com/42wim/matterbridge/bridge/config" "github.com/42wim/matterbridge/bridge/helper" "github.com/lrstanley/girc" "github.com/paulrosania/go-charset/charset" _ "github.com/paulrosania/go-charset/data" "github.com/saintfish/chardet" "io" "io/ioutil" "net" "regexp" "sort" "strconv" "strings" "time" "unicode/utf8" ) type Birc struct { i *girc.Client Nick string names map[string][]string connected chan struct{} Local chan config.Message // local queue for flood control FirstConnection bool MessageDelay, MessageQueue, MessageLength int *bridge.Config } func New(cfg *bridge.Config) bridge.Bridger { b := &Birc{} b.Config = cfg b.Nick = b.GetString("Nick") b.names = make(map[string][]string) b.connected = make(chan struct{}) if b.GetInt("MessageDelay") == 0 { b.MessageDelay = 1300 } if b.GetInt("MessageQueue") == 0 { b.MessageQueue = 30 } if b.GetInt("MessageLength") == 0 { b.MessageLength = 400 } b.FirstConnection = true return b } func (b *Birc) Command(msg *config.Message) string { switch msg.Text { case "!users": b.i.Handlers.Add(girc.RPL_NAMREPLY, b.storeNames) b.i.Handlers.Add(girc.RPL_ENDOFNAMES, b.endNames) b.i.Cmd.SendRaw("NAMES " + msg.Channel) } return "" } func (b *Birc) Connect() error { b.Local = make(chan config.Message, b.GetInt("MessageQueue")+10) b.Log.Infof("Connecting %s", b.GetString("Server")) server, portstr, err := net.SplitHostPort(b.GetString("Server")) if err != nil { return err } port, err := strconv.Atoi(portstr) if err != nil { return err } // fix strict user handling of girc user := b.GetString("Nick") for !girc.IsValidUser(user) { if len(user) == 1 { user = "matterbridge" break } user = user[1:] } i := girc.New(girc.Config{ Server: server, ServerPass: b.GetString("Password"), Port: port, Nick: b.GetString("Nick"), User: user, Name: b.GetString("Nick"), SSL: b.GetBool("UseTLS"), TLSConfig: &tls.Config{InsecureSkipVerify: b.GetBool("SkipTLSVerify"), ServerName: server}, PingDelay: time.Minute, }) if b.GetBool("UseSASL") { i.Config.SASL = &girc.SASLPlain{b.GetString("NickServNick"), b.GetString("NickServPassword")} } i.Handlers.Add(girc.RPL_WELCOME, b.handleNewConnection) i.Handlers.Add(girc.RPL_ENDOFMOTD, b.handleOtherAuth) i.Handlers.Add(girc.ALL_EVENTS, b.handleOther) go func() { for { if err := i.Connect(); err != nil { b.Log.Errorf("error: %s", err) b.Log.Info("reconnecting in 30 seconds...") time.Sleep(30 * time.Second) i.Handlers.Clear(girc.RPL_WELCOME) i.Handlers.Add(girc.RPL_WELCOME, func(client *girc.Client, event girc.Event) { b.Remote <- config.Message{Username: "system", Text: "rejoin", Channel: "", Account: b.Account, Event: config.EVENT_REJOIN_CHANNELS} // set our correct nick on reconnect if necessary b.Nick = event.Source.Name }) } else { return } } }() b.i = i select { case <-b.connected: b.Log.Info("Connection succeeded") case <-time.After(time.Second * 30): return fmt.Errorf("connection timed out") } //i.Debug = false if b.GetInt("DebugLevel") == 0 { i.Handlers.Clear(girc.ALL_EVENTS) } go b.doSend() return nil } func (b *Birc) Disconnect() error { b.i.Close() close(b.Local) return nil } func (b *Birc) JoinChannel(channel config.ChannelInfo) error { if channel.Options.Key != "" { b.Log.Debugf("using key %s for channel %s", channel.Options.Key, channel.Name) b.i.Cmd.JoinKey(channel.Name, channel.Options.Key) } else { b.i.Cmd.Join(channel.Name) } return nil } func (b *Birc) Send(msg config.Message) (string, error) { // ignore delete messages if msg.Event == config.EVENT_MSG_DELETE { return "", nil } b.Log.Debugf("=> Receiving %#v", msg) // we can be in between reconnects #385 if !b.i.IsConnected() { b.Log.Error("Not connected to server, dropping message") } // Execute a command if strings.HasPrefix(msg.Text, "!") { b.Command(&msg) } // convert to specified charset if b.GetString("Charset") != "" { buf := new(bytes.Buffer) w, err := charset.NewWriter(b.GetString("Charset"), buf) if err != nil { b.Log.Errorf("charset from utf-8 conversion failed: %s", err) return "", err } fmt.Fprintf(w, msg.Text) w.Close() msg.Text = buf.String() } // Handle files if msg.Extra != nil { for _, rmsg := range helper.HandleExtra(&msg, b.General) { b.Local <- rmsg } if len(msg.Extra["file"]) > 0 { for _, f := range msg.Extra["file"] { fi := f.(config.FileInfo) if fi.Comment != "" { msg.Text += fi.Comment + ": " } if fi.URL != "" { msg.Text = fi.URL } b.Local <- config.Message{Text: msg.Text, Username: msg.Username, Channel: msg.Channel, Event: msg.Event} } return "", nil } } // split long messages on messageLength, to avoid clipped messages #281 if b.GetBool("MessageSplit") { msg.Text = helper.SplitStringLength(msg.Text, b.GetInt("MessageLength")) } for _, text := range strings.Split(msg.Text, "\n") { if len(text) > b.MessageLength { text = text[:b.MessageLength-len(" ")] if r, size := utf8.DecodeLastRuneInString(text); r == utf8.RuneError { text = text[:len(text)-size] } text += " " } if len(b.Local) < b.GetInt("MessageQueue") { if len(b.Local) == b.GetInt("MessageQueue")-1 { text = text + " " } b.Local <- config.Message{Text: text, Username: msg.Username, Channel: msg.Channel, Event: msg.Event} } else { b.Log.Debugf("flooding, dropping message (queue at %d)", len(b.Local)) } } return "", nil } func (b *Birc) doSend() { rate := time.Millisecond * time.Duration(b.MessageDelay) throttle := time.NewTicker(rate) for msg := range b.Local { <-throttle.C if msg.Event == config.EVENT_USER_ACTION { b.i.Cmd.Action(msg.Channel, msg.Username+msg.Text) } else { b.Log.Debugf("Sending to channel %s", msg.Channel) b.i.Cmd.Message(msg.Channel, msg.Username+msg.Text) } } } func (b *Birc) endNames(client *girc.Client, event girc.Event) { channel := event.Params[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.Handlers.Clear(girc.RPL_NAMREPLY) b.i.Handlers.Clear(girc.RPL_ENDOFNAMES) } func (b *Birc) handleNewConnection(client *girc.Client, event girc.Event) { b.Log.Debug("Registering callbacks") i := b.i b.Nick = event.Params[0] i.Handlers.Add(girc.RPL_ENDOFMOTD, b.handleOtherAuth) i.Handlers.Add("PRIVMSG", b.handlePrivMsg) i.Handlers.Add("CTCP_ACTION", b.handlePrivMsg) i.Handlers.Add(girc.RPL_TOPICWHOTIME, b.handleTopicWhoTime) i.Handlers.Add(girc.NOTICE, b.handleNotice) i.Handlers.Add("JOIN", b.handleJoinPart) i.Handlers.Add("PART", b.handleJoinPart) i.Handlers.Add("QUIT", b.handleJoinPart) i.Handlers.Add("KICK", b.handleJoinPart) // we are now fully connected b.connected <- struct{}{} } func (b *Birc) handleJoinPart(client *girc.Client, event girc.Event) { if len(event.Params) == 0 { b.Log.Debugf("handleJoinPart: empty Params? %#v", event) return } channel := strings.ToLower(event.Params[0]) if event.Command == "KICK" { b.Log.Infof("Got kicked from %s by %s", channel, event.Source.Name) time.Sleep(time.Duration(b.GetInt("RejoinDelay")) * time.Second) b.Remote <- config.Message{Username: "system", Text: "rejoin", Channel: channel, Account: b.Account, Event: config.EVENT_REJOIN_CHANNELS} return } if event.Command == "QUIT" { if event.Source.Name == b.Nick && strings.Contains(event.Trailing, "Ping timeout") { b.Log.Infof("%s reconnecting ..", b.Account) b.Remote <- config.Message{Username: "system", Text: "reconnect", Channel: channel, Account: b.Account, Event: config.EVENT_FAILURE} return } } if event.Source.Name != b.Nick { b.Log.Debugf("<= Sending JOIN_LEAVE event from %s to gateway", b.Account) msg := config.Message{Username: "system", Text: event.Source.Name + " " + strings.ToLower(event.Command) + "s", Channel: channel, Account: b.Account, Event: config.EVENT_JOIN_LEAVE} b.Log.Debugf("<= Message is %#v", msg) b.Remote <- msg return } b.Log.Debugf("handle %#v", event) } func (b *Birc) handleNotice(client *girc.Client, event girc.Event) { if strings.Contains(event.String(), "This nickname is registered") && event.Source.Name == b.GetString("NickServNick") { b.i.Cmd.Message(b.GetString("NickServNick"), "IDENTIFY "+b.GetString("NickServPassword")) } else { b.handlePrivMsg(client, event) } } func (b *Birc) handleOther(client *girc.Client, event girc.Event) { if b.GetInt("DebugLevel") == 1 { if event.Command != "CLIENT_STATE_UPDATED" && event.Command != "CLIENT_GENERAL_UPDATED" { b.Log.Debugf("%#v", event.String()) } return } switch event.Command { case "372", "375", "376", "250", "251", "252", "253", "254", "255", "265", "266", "002", "003", "004", "005": return } b.Log.Debugf("%#v", event.String()) } func (b *Birc) handleOtherAuth(client *girc.Client, event girc.Event) { if strings.EqualFold(b.GetString("NickServNick"), "Q@CServe.quakenet.org") { b.Log.Debugf("Authenticating %s against %s", b.GetString("NickServUsername"), b.GetString("NickServNick")) b.i.Cmd.Message(b.GetString("NickServNick"), "AUTH "+b.GetString("NickServUsername")+" "+b.GetString("NickServPassword")) } } func (b *Birc) skipPrivMsg(event girc.Event) bool { // Our nick can be changed b.Nick = b.i.GetNick() // freenode doesn't send 001 as first reply if event.Command == "NOTICE" { return true } // don't forward queries to the bot if event.Params[0] == b.Nick { return true } // don't forward message from ourself if event.Source.Name == b.Nick { return true } return false } func (b *Birc) handlePrivMsg(client *girc.Client, event girc.Event) { if b.skipPrivMsg(event) { return } rmsg := config.Message{Username: event.Source.Name, Channel: strings.ToLower(event.Params[0]), Account: b.Account, UserID: event.Source.Ident + "@" + event.Source.Host} b.Log.Debugf("== Receiving PRIVMSG: %s %s %#v", event.Source.Name, event.Trailing, event) // set action event if event.IsAction() { rmsg.Event = config.EVENT_USER_ACTION } // strip action, we made an event if it was an action rmsg.Text += event.StripAction() // strip IRC colors re := regexp.MustCompile(`[[:cntrl:]](?:\d{1,2}(?:,\d{1,2})?)?`) rmsg.Text = re.ReplaceAllString(rmsg.Text, "") // start detecting the charset var r io.Reader var err error mycharset := b.GetString("Charset") if mycharset == "" { // detect what were sending so that we convert it to utf-8 detector := chardet.NewTextDetector() result, err := detector.DetectBest([]byte(rmsg.Text)) if err != nil { b.Log.Infof("detection failed for rmsg.Text: %#v", rmsg.Text) return } b.Log.Debugf("detected %s confidence %#v", result.Charset, result.Confidence) mycharset = result.Charset // if we're not sure, just pick ISO-8859-1 if result.Confidence < 80 { mycharset = "ISO-8859-1" } } r, err = charset.NewReader(mycharset, strings.NewReader(rmsg.Text)) if err != nil { b.Log.Errorf("charset to utf-8 conversion failed: %s", err) return } output, _ := ioutil.ReadAll(r) rmsg.Text = string(output) b.Log.Debugf("<= Sending message from %s on %s to gateway", event.Params[0], b.Account) b.Remote <- rmsg } func (b *Birc) handleTopicWhoTime(client *girc.Client, event girc.Event) { parts := strings.Split(event.Params[2], "!") t, err := strconv.ParseInt(event.Params[3], 10, 64) if err != nil { b.Log.Errorf("Invalid time stamp: %s", event.Params[3]) } user := parts[0] if len(parts) > 1 { user += " [" + parts[1] + "]" } b.Log.Debugf("%s: Topic set by %s [%s]", event.Command, user, time.Unix(t, 0)) } func (b *Birc) nicksPerRow() int { return 4 } func (b *Birc) storeNames(client *girc.Client, event girc.Event) { channel := event.Params[2] b.names[channel] = append( b.names[channel], strings.Split(strings.TrimSpace(event.Trailing), " ")...) } func (b *Birc) formatnicks(nicks []string, continued bool) string { return plainformatter(nicks, b.nicksPerRow()) }