package bothandlers import ( "io/ioutil" "math/rand" "os" "path" "strconv" "strings" "sync" "time" "github.com/bwmarrin/discordgo" "github.com/mgerb/go-discord-bot/server/config" "github.com/mgerb/go-discord-bot/server/util" log "github.com/sirupsen/logrus" ) const ( channels int = 2 // 1 for mono, 2 for stereo sampleRate int = 48000 // audio sampling rate - apparently a standard for opus opusFrameSize int = 960 // at 48kHz the permitted values are 120, 240, 480, or 960 maxSoundQueue int = 10 // max amount of sounds that can be queued at one time voiceClipQueuePacketSize int = 2000 // this packet size equates to roughly 40 seconds of audio ) // ActiveConnections - current active bot connections // store our connection objects in a map tied to a guild id var ActiveConnections = make(map[string]*AudioConnection) // AudioConnection - type AudioConnection struct { Guild *discordgo.Guild `json:"guild"` Session *discordgo.Session `json:"-"` VoiceConnection *discordgo.VoiceConnection `json:"-"` CurrentChannel *discordgo.Channel `json:"current_channel"` Sounds map[string]*AudioClip `json:"-"` SoundQueue chan string `json:"-"` VoiceClipQueue chan *discordgo.Packet `json:"-"` SoundPlayingLock bool `json:"-"` AudioListenerLock bool `json:"-"` Mutex *sync.Mutex `json:"-"` // mutex for single audio connection } // AudioClip - type AudioClip struct { Name string Extension string Content [][]byte } // SoundsHandler - func SoundsHandler(s *discordgo.Session, m *discordgo.MessageCreate) { // get channel state to get guild id c, err := s.State.Channel(m.ChannelID) if err != nil { // Could not find channel. log.Error("Unable to find channel.") return } // check to see if active connection object exists if _, ok := ActiveConnections[c.GuildID]; !ok { // Find the guild for that channel. newGuild, err := s.State.Guild(c.GuildID) if err != nil { log.Error(err) return } // create new connection instance ActiveConnections[c.GuildID] = &AudioConnection{ Guild: newGuild, Session: s, Sounds: make(map[string]*AudioClip, 0), SoundQueue: make(chan string, maxSoundQueue), Mutex: &sync.Mutex{}, AudioListenerLock: false, } } ActiveConnections[c.GuildID].handleMessage(m) } func (conn *AudioConnection) handleMessage(m *discordgo.MessageCreate) { // check if valid command if strings.HasPrefix(m.Content, config.Config.BotPrefix) { command := strings.TrimPrefix(m.Content, config.Config.BotPrefix) switch command { case "summon": conn.summon(m) case "dismiss": conn.dismiss() case "clip": conn.clipAudio(m) case "random": conn.PlayRandomAudio(m) default: conn.PlayAudio(command, m) } } } // dismiss bot from currnet channel if it's in one func (conn *AudioConnection) dismiss() { if conn.VoiceConnection != nil && !conn.SoundPlayingLock && len(conn.SoundQueue) == 0 { conn.VoiceConnection.Disconnect() } } // summon bot to channel that user is currently in func (conn *AudioConnection) summon(m *discordgo.MessageCreate) { // Join the channel the user issued the command from if not in it if conn.VoiceConnection == nil || conn.VoiceConnection.ChannelID != m.ChannelID { var err error // Find the channel that the message came from. c, err := conn.Session.State.Channel(m.ChannelID) if err != nil { // Could not find channel. log.Error("User channel not found.") return } // Find the guild for that channel. g, err := conn.Session.State.Guild(c.GuildID) if err != nil { log.Error(err) return } // Look for the message sender in that guilds current voice states for _, vs := range g.VoiceStates { if vs.UserID == m.Author.ID { conn.VoiceConnection, err = conn.Session.ChannelVoiceJoin(g.ID, vs.ChannelID, false, false) if err != nil { log.Error(err) return } // set the current channel conn.CurrentChannel = c // start listening to audio if not locked if !conn.AudioListenerLock { go conn.startAudioListener() } } } } } // play a random sound clip func (conn *AudioConnection) PlayRandomAudio(m *discordgo.MessageCreate) { files, _ := ioutil.ReadDir(config.Config.SoundsPath) if len(files) > 0 { randomIndex := rand.Intn(len(files)) arr := strings.Split(files[randomIndex].Name(), ".") if len(arr) > 0 && arr[0] != "" { conn.PlayAudio(arr[0], m) } } } // PlayAudio - play audio in channel that user is in // if MessageCreate is null play in current channel func (conn *AudioConnection) PlayAudio(soundName string, m *discordgo.MessageCreate) { // summon bot to channel if new message passed in if m != nil { conn.summon(m) } else if !conn.VoiceConnection.Ready { return } // check if sound exists in memory if _, ok := conn.Sounds[soundName]; !ok { // try to load the sound if not found in memory err := conn.loadFile(soundName) if err != nil { log.Error(err) return } } // add sound to queue if queue isn't full select { case conn.SoundQueue <- soundName: default: break } // start playing sounds in queue if not already playing if !conn.SoundPlayingLock { conn.playSoundsInQueue() } } // playSoundsInQueue - play sounds until audio queue is empty func (conn *AudioConnection) playSoundsInQueue() { conn.toggleSoundPlayingLock(true) // Start speaking. conn.VoiceConnection.Speaking(true) for { select { case newSoundName := <-conn.SoundQueue: if !conn.VoiceConnection.Ready { return } // Send the buffer data. for _, buff := range conn.Sounds[newSoundName].Content { conn.VoiceConnection.OpusSend <- buff } // Sleep for a specificed amount of time before ending. time.Sleep(100 * time.Millisecond) default: // Stop speaking conn.VoiceConnection.Speaking(false) conn.toggleSoundPlayingLock(false) return } } } func (conn *AudioConnection) toggleSoundPlayingLock(playing bool) { conn.Mutex.Lock() conn.SoundPlayingLock = playing conn.Mutex.Unlock() } // load audio file into memory func (conn *AudioConnection) loadFile(fileName string) error { extension, err := util.GetFileExtension(config.Config.SoundsPath, fileName) if err != nil { return err } opusData, err := util.GetFileOpusData(path.Join(config.Config.SoundsPath, fileName+extension), channels, opusFrameSize, sampleRate) if err != nil { return err } conn.Sounds[fileName] = &AudioClip{ Content: opusData, Name: fileName, Extension: extension, } return nil } func (conn *AudioConnection) clipAudio(m *discordgo.MessageCreate) { if len(conn.VoiceClipQueue) < 10 { conn.Session.ChannelMessageSend(m.ChannelID, "Clip failed.") } else { writePacketsToFile(m.Author.Username, conn.VoiceClipQueue) conn.Session.ChannelMessageSend(m.ChannelID, "Sound clipped!") } } func writePacketsToFile(username string, packets chan *discordgo.Packet) { // create clips folder if it does not exist if _, err := os.Stat(config.Config.ClipsPath); os.IsNotExist(err) { os.Mkdir(config.Config.ClipsPath, os.ModePerm) } opusData := map[uint32][][]byte{} loop: for { select { case p := <-packets: // separate opus data for each channel opusData[p.SSRC] = append(opusData[p.SSRC], p.Opus) default: break loop } } for key, opus := range opusData { pcmData, err := util.OpusToPCM(opus, sampleRate, channels) if err != nil { log.Error(err) continue } // construct filename timestamp := time.Now().UTC().Format("2006-01-02") + "-" + strconv.Itoa(int(time.Now().Unix())) filename := config.Config.ClipsPath + "/" + timestamp + "-" + strconv.Itoa(int(key)) + "-" + username + ".wav" err = util.SavePCMToWavFile(pcmData, filename, sampleRate, channels) if err != nil { log.Error(err) } } } // start listening to the voice channel func (conn *AudioConnection) startAudioListener() { conn.AudioListenerLock = true if conn.VoiceClipQueue == nil { conn.VoiceClipQueue = make(chan *discordgo.Packet, voiceClipQueuePacketSize) } // create new channel to watch for voice connection // when voice connection is not ready the loop will exit exitChan := make(chan bool) go func() { for { if !conn.VoiceConnection.Ready { exitChan <- true break } time.Sleep(time.Second * 1) } }() loop: for { select { // grab incomming audio case opusChannel, ok := <-conn.VoiceConnection.OpusRecv: if !ok { continue } // if channel is full trim off from beginning if len(conn.VoiceClipQueue) == cap(conn.VoiceClipQueue) { <-conn.VoiceClipQueue } // add current packet to channel queue conn.VoiceClipQueue <- opusChannel // check if voice connection fails then break out of audio listener case <-exitChan: break loop } } // remove lock upon exit conn.AudioListenerLock = false }