package main import ( "crypto/ed25519" "crypto/rand" "crypto/x509" "encoding/binary" "encoding/pem" "flag" "fmt" "os" "os/signal" "syscall" "time" "git.metznet.ca/MetzNet/go-ncurses" "git.metznet.ca/MetzNet/pnyx" "github.com/gen2brain/malgo" "github.com/google/uuid" "github.com/hraban/opus" ) var decoders = map[pnyx.PeerID]chan[]byte{} var encoder *opus.Encoder var sample_rate int = 0 func set_sample_rate(audio_data chan []int16, new_sample_rate int) error { sample_rate = new_sample_rate var err error encoder, err = opus.NewEncoder(new_sample_rate, 1, opus.AppVoIP) if err != nil { return err } for peer_id, decoder_chan := range(decoders) { if decoder_chan != nil { decoder_chan <- nil } new_chan := make(chan[]byte, 1000) decoders[peer_id] = new_chan go handle_peer_decode(audio_data, peer_id, decoders[peer_id], sample_rate) } return nil } func handle_peer_decode(audio_data chan []int16, peer_id pnyx.PeerID, decode_chan chan[]byte, sample_rate int){ decoder, err := opus.NewDecoder(sample_rate, 1) if err != nil { panic(err) } running := true missed := 0 for running { select { case <-time.After(20*time.Millisecond): missed += 1 if missed > 100 { decode_chan <- <- decode_chan } pcm := make([]int16, sample_rate/50) err := decoder.DecodePLC(pcm) if err != nil { panic(err) } audio_data <- pcm case data := <-decode_chan: missed = 0 if data == nil { running = false } else { pcm := make([]int16, sample_rate/50*2) written, err := decoder.Decode(data, pcm) if err != nil { panic(err) } audio_data <- pcm[:written] } } } } func mixer(data_chan chan []int16, speaker_chan chan []int16) { var samples []int16 = nil for true { if samples == nil { samples = <- data_chan } else { select { case new_samples := <- data_chan: for i, sample := range(new_samples) { samples[i] += sample } case speaker_chan <- samples: samples = nil } } } } func setup_audio(mic chan []byte, speaker chan []int16) (*malgo.AllocatedContext, *malgo.Device, *malgo.Device) { ctx, err := malgo.InitContext(nil, malgo.ContextConfig{}, nil) if err != nil { panic(err) } infos, err := ctx.Devices(malgo.Playback) if err != nil { panic(err) } var playback_device *malgo.DeviceInfo = nil for _, info := range infos { if info.IsDefault != 0 { full, err := ctx.DeviceInfo(malgo.Playback, info.ID, malgo.Shared) if err != nil { panic(err) } playback_device = &full } } if playback_device == nil { panic("No default playback device") } infos, err = ctx.Devices(malgo.Capture) if err != nil { panic(err) } var capture_device *malgo.DeviceInfo = nil for _, info := range infos { if info.IsDefault != 0 { full, err := ctx.DeviceInfo(malgo.Capture, info.ID, malgo.Shared) if err != nil { panic(err) } capture_device = &full } } if capture_device == nil { panic("No default capture device") } inDeviceConfig := malgo.DefaultDeviceConfig(malgo.Capture) inDeviceConfig.Capture.Format = malgo.FormatS16 inDeviceConfig.Capture.Channels = 1 inDeviceConfig.Capture.DeviceID = capture_device.ID.Pointer() inDeviceConfig.SampleRate = 48000 inDeviceConfig.PeriodSizeInFrames = 960 inDeviceConfig.Alsa.NoMMap = 1 inDeviceConfig.Capture.ShareMode = malgo.Shared outDeviceConfig := malgo.DefaultDeviceConfig(malgo.Playback) outDeviceConfig.Playback.Format = malgo.FormatS16 outDeviceConfig.Playback.Channels = 1 outDeviceConfig.Playback.DeviceID = playback_device.ID.Pointer() outDeviceConfig.SampleRate = 48000 outDeviceConfig.PeriodSizeInFrames = 960 outDeviceConfig.Alsa.NoMMap = 1 outDeviceConfig.Playback.ShareMode = malgo.Shared onSendFrames := func(output_samples []byte, input_samples []byte, framecount uint32) { select { case pcm := <- speaker: for i := 0; i < sample_rate/50; i++ { binary.LittleEndian.PutUint16(output_samples[i*2:], uint16(pcm[i])) } default: } } playbackCallbacks := malgo.DeviceCallbacks{ Data: onSendFrames, } outDevice, err := malgo.InitDevice(ctx.Context, outDeviceConfig, playbackCallbacks) if err != nil { panic(err) } err = outDevice.Start() if err != nil { panic(err) } onRecvFrames := func(output_samples []byte, input_samples []byte, framecount uint32) { if encoder != nil { pcm := make([]int16, len(input_samples)/2) for i := 0; i < len(input_samples)/2; i++ { pcm[i] = int16(binary.LittleEndian.Uint16(input_samples[2*i:])) } data := make([]byte, len(input_samples)) written, err := encoder.Encode(pcm, data) if err != nil { panic(err) } select { case mic <- data[:written]: default: } } } captureCallbacks := malgo.DeviceCallbacks{ Data: onRecvFrames, } inDevice, err := malgo.InitDevice(ctx.Context, inDeviceConfig, captureCallbacks) if err != nil { panic(err) } err = inDevice.Start() if err != nil { panic(err) } return ctx, outDevice, inDevice } func get_private_key(path string, generate bool) ed25519.PrivateKey { key_file_bytes, err := os.ReadFile(path) if err == nil { key_pem, _ := pem.Decode(key_file_bytes) if key_pem.Type != "PRIVATE KEY" { panic("Key file has wrong PEM format") } private_key, err := x509.ParsePKCS8PrivateKey(key_pem.Bytes) if err != nil { panic(err) } var ok bool key, ok := private_key.(ed25519.PrivateKey) if ok == false { panic("Private key is not ed25519.PrivateKey") } return key } else if generate { _, key, err := ed25519.GenerateKey(rand.Reader) if err != nil { panic(err) } key_pkcs8, err := x509.MarshalPKCS8PrivateKey(key) if err != nil { panic(err) } key_pem := pem.EncodeToMemory(&pem.Block{ Type: "PRIVATE KEY", Bytes: key_pkcs8, }) err = os.WriteFile(path, key_pem, 0o600) if err != nil { panic(err) } return key } else { panic(fmt.Sprintf("Failed to read key from %s", path)) } } func print_decoration(window, title, channels, body ncurses.Window, top_left string) { max_y := ncurses.GetMaxY(*ncurses.CurScr) max_x := ncurses.GetMaxX(*ncurses.CurScr) ncurses.WResize(window, max_y, max_x) ncurses.WResize(title, 1, max_x/4-2) ncurses.MvWin(title, 1, 1) ncurses.WResize(channels, max_y - 4, (max_x / 4) - 2) ncurses.MvWin(channels, 3, 1) ncurses.WResize(body, max_y - 2, max_x - (max_x / 4) - 2) ncurses.MvWin(body, 1, (max_x / 4) + 1) ncurses.MvWAddStr(title, 0, 0, top_left) for i := 1; i < max_x - 1; i++ { ncurses.MvWAddStr(window, 0, i, "═") } for i := 1; i < max_x/4; i++ { ncurses.MvWAddStr(window, 2, i, "═") } for i := 1; i < max_y-1; i++ { ncurses.MvWAddStr(window, i, 0, "║") } for i := 1; i < max_y-1; i++ { ncurses.MvWAddStr(window, i, max_x-1, "║") } for i := 1; i < max_y-1; i++ { ncurses.MvWAddStr(window, i, max_x/4, "║") } for i := 1; i < max_x-1; i++ { ncurses.MvWAddStr(window, max_y - 1, i, "═") } ncurses.MvWAddStr(window, 0, 0, "╔") ncurses.MvWAddStr(window, 0, max_x-1, "╗") ncurses.MvWAddStr(window, 0, max_x/4, "╦") ncurses.MvWAddStr(window, 2, 0, "╠") ncurses.MvWAddStr(window, 2, max_x/4, "╣") ncurses.MvWAddStr(window, max_y-1, 0, "╚") ncurses.MvWAddStr(window, max_y-1, max_x/4, "╩") ncurses.MvWAddStr(window, max_y-1, max_x-1, "╝") ncurses.WRefresh(window) ncurses.WRefresh(title) ncurses.WRefresh(channels) ncurses.WRefresh(body) } func main_loop(client *pnyx.Client, audio_data chan []int16, window ncurses.Window, packet_chan chan pnyx.Payload, user_chan chan []byte, sigwinch_channel chan os.Signal) { channels := ncurses.NewWin(0, 0, 0, 0) body := ncurses.NewWin(0, 0, 0, 0) title := ncurses.NewWin(0, 0, 0, 0) print_decoration(window, title, channels, body, client.Remote()) for client.Active() { select { case <-sigwinch_channel: ncurses.EndWin() ncurses.WRefresh(window) ncurses.WClear(window) print_decoration(window, title, channels, body, client.Remote()) case packet := <-packet_chan: switch packet := packet.(type) { case pnyx.ChannelCommandPacket: if packet.Channel == pnyx.ChannelID(0) { if packet.Mode == pnyx.MODE_AUDIO { if packet.Command == pnyx.AUDIO_SET_SAMPLE_RATE { var new_sample_rate int switch pnyx.SampleRate(packet.Data[0]) { case pnyx.SAMPLE_RATE_24KHZ: new_sample_rate = 24000 case pnyx.SAMPLE_RATE_48KHZ: new_sample_rate = 48000 default: continue } err := set_sample_rate(audio_data, new_sample_rate) if err != nil { panic(err) } } } } case pnyx.PeerPacket: if packet.Channel == pnyx.ChannelID(0) { decode_chan, exists := decoders[packet.Peer] if exists == false { if sample_rate != 0 { decode_chan = make(chan[]byte, 1000) decoders[packet.Peer] = decode_chan go handle_peer_decode(audio_data, packet.Peer, decoders[packet.Peer], sample_rate) decode_chan <- packet.Data } else { decoders[packet.Peer] = nil } } else if decode_chan != nil { decode_chan <- packet.Data } } } case char := <-user_chan: ncurses.WAddStr(body, string(char)) ncurses.WRefresh(body) } } } func process_mic(client *pnyx.Client, mic chan []byte) { for true { data := <- mic err := client.Send(pnyx.NewDataPacket(pnyx.ChannelID(0), pnyx.MODE_AUDIO, data)) if err != nil { panic(err) } } } func main() { key_file_arg := flag.String("key", "${HOME}/.pnyx.key", "Path to the private key file to load/save") generate_key_arg := flag.Bool("genkey", false, "Set to generate a key if none exists") flag.Parse() var audio_data = make(chan []int16, 0) var speaker = make(chan []int16, 0) go mixer(audio_data, speaker) var mic = make(chan []byte, 0) ctx, outDevice, inDevice := setup_audio(mic, speaker) defer ctx.Free() defer ctx.Uninit() defer outDevice.Uninit() defer outDevice.Stop() defer inDevice.Uninit() defer inDevice.Stop() user_chan := make(chan []byte, 1024) packet_chan := make(chan pnyx.Payload, 1024) key := get_private_key(os.ExpandEnv(*key_file_arg), *generate_key_arg) client, err := pnyx.NewClient(key, flag.Arg(0), func(payload pnyx.Payload) error { select { case packet_chan <- payload: return nil default: return fmt.Errorf("Channel overflow") } }) if err != nil { panic(err) } join_packet := pnyx.NewChannelCommandPacket(uuid.New(), pnyx.ChannelID(0), pnyx.MODE_CHANNEL, pnyx.CHANNEL_COMMAND_JOIN, nil) err = client.Send(join_packet) if err != nil { panic(err) } get_sample_rate_packet := pnyx.NewChannelCommandPacket(uuid.New(), pnyx.ChannelID(0), pnyx.MODE_AUDIO, pnyx.AUDIO_SET_SAMPLE_RATE, []byte{byte(pnyx.SAMPLE_RATE_48KHZ)}) err = client.Send(get_sample_rate_packet) if err != nil { panic(err) } go process_mic(client, mic) locale := ncurses.SetLocale(0, "") fmt.Printf("locale: %s\n", locale) user_chan, stdin_active := ncurses.UTF8Listener(100, os.Stdin) window := ncurses.InitScr() ret := ncurses.StartColor() if ret != 0 { panic(ret) } sigwinch_channel := make(chan os.Signal, 1) signal.Notify(sigwinch_channel, syscall.SIGWINCH) go main_loop(client, audio_data, window, packet_chan, user_chan, sigwinch_channel) os_sigs := make(chan os.Signal, 1) signal.Notify(os_sigs, syscall.SIGINT, syscall.SIGABRT) <-os_sigs stdin_active.Store(false) client.Close() ncurses.EndWin() }