package main import ( "crypto/tls" "fmt" "log" "net" "os" "os/signal" "strconv" "time" "github.com/bwmarrin/discordgo" "layeh.com/gumble/gumble" ) type BridgeState struct { ActiveConn chan bool Connected bool Mode BridgeMode Client *gumble.Client DiscordUsers map[string]bool MumbleUsers map[string]bool MumbleUserCount int DiscordUserCount int AutoChan chan bool } func startBridge(discord *discordgo.Session, discordGID string, discordCID string, l *Listener, die chan bool) { dgv, err := discord.ChannelVoiceJoin(discordGID, discordCID, false, false) if err != nil { log.Println(err) return } defer dgv.Speaking(false) defer dgv.Close() discord.ShouldReconnectOnError = true // MUMBLE Setup m := MumbleDuplex{ Close: make(chan bool), } var tlsConfig tls.Config if l.BridgeConf.MumbleInsecure { tlsConfig.InsecureSkipVerify = true } mumble, err := gumble.DialWithDialer(new(net.Dialer), l.BridgeConf.MumbleAddr, l.BridgeConf.Config, &tlsConfig) if err != nil { log.Println(err) return } defer mumble.Disconnect() l.Bridge.Client = mumble // Shared Channels // Shared channels pass PCM information in 10ms chunks [480]int16 var toMumble = mumble.AudioOutgoing() var toDiscord = make(chan []int16, 100) log.Println("Mumble Connected") // Start Passing Between // Mumble go m.fromMumbleMixer(toDiscord, die) det := l.BridgeConf.Config.AudioListeners.Attach(m) //Discord go discordReceivePCM(dgv, die) go fromDiscordMixer(toMumble, die) go discordSendPCM(dgv, toDiscord, die) c := make(chan os.Signal) signal.Notify(c, os.Interrupt) go func() { ticker := time.NewTicker(500 * time.Millisecond) for { <-ticker.C if mumble.State() != 2 { log.Println("Lost mumble connection " + strconv.Itoa(int(mumble.State()))) select { default: close(die) case <-die: //die is already closed } select { default: close(m.Close) case <-m.Close: //m.Close is already closed } return } } }() l.ConnectedLock.Lock() l.Bridge.Connected = true l.ConnectedLock.Unlock() select { case sig := <-c: log.Printf("\nGot %s signal. Terminating Mumble-Bridge\n", sig) case <-die: log.Println("\nGot internal die request. Terminating Mumble-Bridge") dgv.Disconnect() det.Detach() close(die) close(m.Close) close(toMumble) l.Bridge.Connected = false l.Bridge.Client = nil l.Bridge.MumbleUserCount = 0 l.Bridge.MumbleUsers = make(map[string]bool) l.Bridge.DiscordUserCount = 0 l.Bridge.DiscordUsers = make(map[string]bool) } } func discordStatusUpdate(dg *discordgo.Session, host, port string, l *Listener) { status := "" curr := 0 m, _ := time.ParseDuration("30s") for { time.Sleep(3 * time.Second) resp, err := gumble.Ping(host+":"+port, -1, m) if err != nil { log.Printf("error pinging mumble server %v\n", err) dg.UpdateListeningStatus("an error pinging mumble") } else { l.UserCountLock.Lock() l.ConnectedLock.Lock() curr = resp.ConnectedUsers if l.Bridge.Connected { curr = curr - 1 } if curr != l.Bridge.MumbleUserCount { l.Bridge.MumbleUserCount = curr } if curr == 0 { status = "" } else { if len(l.Bridge.MumbleUsers) > 0 { status = fmt.Sprintf("%v/%v users in Mumble\n", len(l.Bridge.MumbleUsers), curr) } else { status = fmt.Sprintf("%v users in Mumble\n", curr) } } l.ConnectedLock.Unlock() l.UserCountLock.Unlock() dg.UpdateListeningStatus(status) } } } func AutoBridge(s *discordgo.Session, l *Listener) { log.Println("beginning auto mode") for { select { default: case <-l.Bridge.AutoChan: log.Println("ending automode") return } time.Sleep(3 * time.Second) l.UserCountLock.Lock() if !l.Bridge.Connected && l.Bridge.MumbleUserCount > 0 && l.Bridge.DiscordUserCount > 0 { log.Println("users detected in mumble and discord, bridging") die := make(chan bool) l.Bridge.ActiveConn = die go startBridge(s, l.BridgeConf.GID, l.BridgeConf.CID, l, die) } if l.Bridge.Connected && l.Bridge.MumbleUserCount == 0 && l.Bridge.DiscordUserCount <= 1 { log.Println("no one online, killing bridge") l.Bridge.ActiveConn <- true MumbleReset() DiscordReset() } l.UserCountLock.Unlock() } }