neko/internal/webrtc/manager.go

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package webrtc
import (
"fmt"
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"net"
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"strings"
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"sync/atomic"
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"time"
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"github.com/pion/ice/v2"
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"github.com/pion/rtcp"
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"github.com/pion/webrtc/v3"
"github.com/rs/zerolog"
"github.com/rs/zerolog/log"
"gitlab.com/demodesk/neko/server/internal/config"
"gitlab.com/demodesk/neko/server/internal/webrtc/cursor"
"gitlab.com/demodesk/neko/server/internal/webrtc/pionlog"
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"gitlab.com/demodesk/neko/server/pkg/types"
"gitlab.com/demodesk/neko/server/pkg/types/codec"
"gitlab.com/demodesk/neko/server/pkg/types/event"
"gitlab.com/demodesk/neko/server/pkg/types/message"
)
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// the duration without network activity before a Agent is considered disconnected. Default is 5 Seconds
const disconnectedTimeout = 4 * time.Second
// the duration without network activity before a Agent is considered failed after disconnected. Default is 25 Seconds
const failedTimeout = 6 * time.Second
// how often the ICE Agent sends extra traffic if there is no activity, if media is flowing no traffic will be sent. Default is 2 seconds
const keepAliveInterval = 2 * time.Second
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// send a PLI on an interval so that the publisher is pushing a keyframe every rtcpPLIInterval
const rtcpPLIInterval = 3 * time.Second
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func New(desktop types.DesktopManager, capture types.CaptureManager, config *config.WebRTC) *WebRTCManagerCtx {
return &WebRTCManagerCtx{
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logger: log.With().Str("module", "webrtc").Logger(),
config: config,
desktop: desktop,
capture: capture,
curImage: cursor.NewImage(desktop),
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curPosition: cursor.NewPosition(),
}
}
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type WebRTCManagerCtx struct {
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logger zerolog.Logger
config *config.WebRTC
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peerId int32
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desktop types.DesktopManager
capture types.CaptureManager
curImage *cursor.ImageCtx
curPosition *cursor.PositionCtx
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tcpMux ice.TCPMux
udpMux ice.UDPMux
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camStop, micStop *func()
}
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func (manager *WebRTCManagerCtx) Start() {
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manager.curImage.Start()
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logger := pionlog.New(manager.logger)
// add TCP Mux listener
if manager.config.TCPMux > 0 {
tcpListener, err := net.ListenTCP("tcp", &net.TCPAddr{
IP: net.IP{0, 0, 0, 0},
Port: manager.config.TCPMux,
})
if err != nil {
manager.logger.Panic().Err(err).Msg("unable to setup ice TCP mux")
}
manager.tcpMux = webrtc.NewICETCPMux(logger.NewLogger("ice-tcp"), tcpListener, 32)
}
// add UDP Mux listener
if manager.config.UDPMux > 0 {
udpListener, err := net.ListenUDP("udp", &net.UDPAddr{
IP: net.IP{0, 0, 0, 0},
Port: manager.config.UDPMux,
})
if err != nil {
manager.logger.Panic().Err(err).Msg("unable to setup ice UDP mux")
}
manager.udpMux = webrtc.NewICEUDPMux(logger.NewLogger("ice-udp"), udpListener)
}
manager.logger.Info().
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Bool("icelite", manager.config.ICELite).
Bool("icetrickle", manager.config.ICETrickle).
Interface("iceservers", manager.config.ICEServers).
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Str("nat1to1", strings.Join(manager.config.NAT1To1IPs, ",")).
Str("epr", fmt.Sprintf("%d-%d", manager.config.EphemeralMin, manager.config.EphemeralMax)).
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Int("tcpmux", manager.config.TCPMux).
Int("udpmux", manager.config.UDPMux).
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Msg("webrtc starting")
}
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func (manager *WebRTCManagerCtx) Shutdown() error {
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manager.logger.Info().Msg("shutdown")
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manager.curImage.Shutdown()
manager.curPosition.Shutdown()
return nil
}
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func (manager *WebRTCManagerCtx) ICEServers() []types.ICEServer {
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return manager.config.ICEServers
}
func (manager *WebRTCManagerCtx) CreatePeer(session types.Session, videoID string) (*webrtc.SessionDescription, error) {
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id := atomic.AddInt32(&manager.peerId, 1)
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// add session id to logger context
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logger := manager.logger.With().Str("session_id", session.ID()).Int32("peer_id", id).Logger()
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logger.Info().Msg("creating webrtc peer")
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// all audios must have the same codec
audioStream := manager.capture.Audio()
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// all videos must have the same codec
videoStream, ok := manager.capture.Video(videoID)
if !ok {
return nil, types.ErrWebRTCVideoNotFound
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}
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connection, err := manager.newPeerConnection([]codec.RTPCodec{
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audioStream.Codec(),
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videoStream.Codec(),
}, logger)
if err != nil {
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return nil, err
}
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// asynchronously send local ICE Candidates
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if manager.config.ICETrickle {
connection.OnICECandidate(func(candidate *webrtc.ICECandidate) {
if candidate == nil {
logger.Debug().Msg("all local ice candidates sent")
return
}
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session.Send(
event.SIGNAL_CANDIDATE,
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message.SignalCandidate{
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ICECandidateInit: candidate.ToJSON(),
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})
})
}
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// audio track
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audioTrack, err := manager.newPeerStreamTrack(audioStream, logger)
if err != nil {
return nil, err
}
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if err := audioTrack.AddToConnection(connection); err != nil {
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return nil, err
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}
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// video track
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videoTrack, err := manager.newPeerStreamTrack(videoStream, logger)
if err != nil {
return nil, err
}
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if err := videoTrack.AddToConnection(connection); err != nil {
return nil, err
}
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// data channel
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dataChannel, err := connection.CreateDataChannel("data", nil)
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if err != nil {
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return nil, err
}
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peer := &WebRTCPeerCtx{
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logger: logger,
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connection: connection,
dataChannel: dataChannel,
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changeVideo: func(videoID string) error {
videoStream, ok := manager.capture.Video(videoID)
if !ok {
return types.ErrWebRTCVideoNotFound
}
return videoTrack.SetStream(videoStream)
},
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setPaused: func(isPaused bool) {
videoTrack.SetPaused(isPaused)
audioTrack.SetPaused(isPaused)
// TODO: Send fresh cursor position & image when unpausing.
},
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iceTrickle: manager.config.ICETrickle,
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}
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connection.OnTrack(func(track *webrtc.TrackRemote, receiver *webrtc.RTPReceiver) {
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logger := logger.With().
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Str("kind", track.Kind().String()).
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Str("mime", track.Codec().RTPCodecCapability.MimeType).
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Logger()
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logger.Info().Msgf("received new remote track")
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if !session.Profile().CanShareMedia {
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logger.Warn().Msg("media sharing is disabled for this session")
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receiver.Stop()
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return
}
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// parse codec from remote track
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codec, ok := codec.ParseRTC(track.Codec())
if !ok {
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logger.Warn().Msg("remote track with unknown codec")
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receiver.Stop()
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return
}
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var srcManager types.StreamSrcManager
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stopped := false
stopFn := func() {
if stopped {
return
}
stopped = true
receiver.Stop()
srcManager.Stop()
logger.Info().Msg("remote track stopped")
}
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if track.Kind() == webrtc.RTPCodecTypeAudio {
// audio -> microphone
srcManager = manager.capture.Microphone()
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defer stopFn()
if manager.micStop != nil {
(*manager.micStop)()
}
manager.micStop = &stopFn
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} else if track.Kind() == webrtc.RTPCodecTypeVideo {
// video -> webcam
srcManager = manager.capture.Webcam()
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defer stopFn()
if manager.camStop != nil {
(*manager.camStop)()
}
manager.camStop = &stopFn
} else {
logger.Warn().Msg("remote track with unsupported codec type")
receiver.Stop()
return
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}
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err := srcManager.Start(codec)
if err != nil {
logger.Err(err).Msg("failed to start pipeline")
return
}
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ticker := time.NewTicker(rtcpPLIInterval)
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defer ticker.Stop()
go func() {
for range ticker.C {
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err := connection.WriteRTCP([]rtcp.Packet{&rtcp.PictureLossIndication{MediaSSRC: uint32(track.SSRC())}})
if err != nil {
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logger.Err(err).Msg("remote track rtcp send err")
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}
}
}()
buf := make([]byte, 1400)
for {
i, _, err := track.Read(buf)
if err != nil {
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logger.Warn().Err(err).Msg("failed read from remote track")
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break
}
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srcManager.Push(buf[:i])
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}
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logger.Info().Msg("remote track data finished")
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})
connection.OnDataChannel(func(dc *webrtc.DataChannel) {
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logger.Info().Interface("data_channel", dc).Msg("got remote data channel")
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})
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connection.OnConnectionStateChange(func(state webrtc.PeerConnectionState) {
switch state {
case webrtc.PeerConnectionStateConnected:
session.SetWebRTCConnected(peer, true)
case webrtc.PeerConnectionStateDisconnected,
webrtc.PeerConnectionStateFailed:
connection.Close()
case webrtc.PeerConnectionStateClosed:
session.SetWebRTCConnected(peer, false)
videoTrack.RemoveStream()
audioTrack.RemoveStream()
}
})
cursorImage := func(entry *cursor.ImageEntry) {
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// TODO: Refactor.
if videoTrack.paused {
return
}
if err := peer.SendCursorImage(entry.Cursor, entry.Image); err != nil {
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logger.Err(err).Msg("could not send cursor image")
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}
}
cursorPosition := func(x, y int) {
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// TODO: Refactor.
if videoTrack.paused {
return
}
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if session.IsHost() {
return
}
if err := peer.SendCursorPosition(x, y); err != nil {
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logger.Err(err).Msg("could not send cursor position")
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}
}
dataChannel.OnOpen(func() {
manager.curImage.AddListener(&cursorImage)
manager.curPosition.AddListener(&cursorPosition)
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// send initial cursor image
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entry, err := manager.curImage.Get()
if err == nil {
cursorImage(entry)
} else {
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logger.Err(err).Msg("failed to get cursor image")
}
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// send initial cursor position
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x, y := manager.desktop.GetCursorPosition()
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cursorPosition(x, y)
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})
dataChannel.OnClose(func() {
manager.curImage.RemoveListener(&cursorImage)
manager.curPosition.RemoveListener(&cursorPosition)
})
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dataChannel.OnMessage(func(message webrtc.DataChannelMessage) {
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// TODO: Refactor.
if videoTrack.paused {
return
}
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if err := manager.handle(message.Data, session); err != nil {
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logger.Err(err).Msg("data handle failed")
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}
})
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session.SetWebRTCPeer(peer)
offer, err := peer.CreateOffer(false)
if err != nil {
return nil, err
}
// on negotiation needed handler must be registered after creating initial
// offer, otherwise it can fire and intercept sucessful negotiation
connection.OnNegotiationNeeded(func() {
logger.Warn().Msg("negotiation is needed")
if connection.SignalingState() != webrtc.SignalingStateStable {
logger.Warn().Msg("connection isn't stable yet; postponing...")
return
}
offer, err := peer.CreateOffer(false)
if err != nil {
logger.Err(err).Msg("sdp offer failed")
return
}
session.Send(
event.SIGNAL_OFFER,
message.SignalDescription{
SDP: offer.SDP,
})
})
return offer, nil
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}