/*
* Nextcloud Talk application
*
* @author Mario Danic
* @author Tim Krüger
* Copyright (C) 2022 Tim Krüger <t@timkrueger.me>
* Copyright (C) 2017 Mario Danic <mario@lovelyhq.com>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
package com.nextcloud.talk.webrtc;
import android.content.Context;
import android.util.Log;
import com.bluelinelabs.logansquare.LoganSquare;
import com.nextcloud.talk.application.NextcloudTalkApplication;
import com.nextcloud.talk.models.json.signaling.DataChannelMessage;
import com.nextcloud.talk.models.json.signaling.NCIceCandidate;
import com.nextcloud.talk.models.json.signaling.NCMessagePayload;
import com.nextcloud.talk.models.json.signaling.NCSignalingMessage;
import com.nextcloud.talk.signaling.SignalingMessageReceiver;
import com.nextcloud.talk.signaling.SignalingMessageSender;
import org.webrtc.AudioTrack;
import org.webrtc.DataChannel;
import org.webrtc.IceCandidate;
import org.webrtc.MediaConstraints;
import org.webrtc.MediaStream;
import org.webrtc.MediaStreamTrack;
import org.webrtc.PeerConnection;
import org.webrtc.PeerConnectionFactory;
import org.webrtc.RtpReceiver;
import org.webrtc.RtpTransceiver;
import org.webrtc.SdpObserver;
import org.webrtc.SessionDescription;
import org.webrtc.VideoTrack;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import javax.inject.Inject;
import androidx.annotation.Nullable;
import autodagger.AutoInjector;
@AutoInjector(NextcloudTalkApplication.class)
public class PeerConnectionWrapper {
/**
* Listener for data channel messages.
*
* The messages are bound to a specific peer connection, so each listener is expected to handle messages only for
* a single peer connection.
*
* All methods are called on the so called "signaling" thread of WebRTC, which is an internal thread created by the
* WebRTC library and NOT the same thread where signaling messages are received.
*/
public interface DataChannelMessageListener {
void onAudioOn();
void onAudioOff();
void onVideoOn();
void onVideoOff();
void onNickChanged(String nick);
}
/**
* Observer for changes on the peer connection.
*
* The changes are bound to a specific peer connection, so each observer is expected to handle messages only for
* a single peer connection.
*
* All methods are called on the so called "signaling" thread of WebRTC, which is an internal thread created by the
* WebRTC library and NOT the same thread where signaling messages are received.
*/
public interface PeerConnectionObserver {
void onStreamAdded(MediaStream mediaStream);
void onStreamRemoved(MediaStream mediaStream);
void onIceConnectionStateChanged(PeerConnection.IceConnectionState iceConnectionState);
}
private static final String TAG = PeerConnectionWrapper.class.getCanonicalName();
private final SignalingMessageReceiver signalingMessageReceiver;
private final WebRtcMessageListener webRtcMessageListener = new WebRtcMessageListener();
private final SignalingMessageSender signalingMessageSender;
private final DataChannelMessageNotifier dataChannelMessageNotifier = new DataChannelMessageNotifier();
private final PeerConnectionNotifier peerConnectionNotifier = new PeerConnectionNotifier();
private List<IceCandidate> iceCandidates = new ArrayList<>();
private PeerConnection peerConnection;
private String sessionId;
private final MediaConstraints mediaConstraints;
private DataChannel dataChannel;
private final MagicSdpObserver magicSdpObserver;
private final boolean hasInitiated;
private final MediaStream localStream;
private final boolean isMCUPublisher;
private final String videoStreamType;
@Inject
Context context;
public PeerConnectionWrapper(PeerConnectionFactory peerConnectionFactory,
List<PeerConnection.IceServer> iceServerList,
MediaConstraints mediaConstraints,
String sessionId, String localSession, @Nullable MediaStream localStream,
boolean isMCUPublisher, boolean hasMCU, String videoStreamType,
SignalingMessageReceiver signalingMessageReceiver,
SignalingMessageSender signalingMessageSender) {
Objects.requireNonNull(NextcloudTalkApplication.Companion.getSharedApplication()).getComponentApplication().inject(this);
this.localStream = localStream;
this.videoStreamType = videoStreamType;
this.sessionId = sessionId;
this.mediaConstraints = mediaConstraints;
magicSdpObserver = new MagicSdpObserver();
hasInitiated = sessionId.compareTo(localSession) < 0;
this.isMCUPublisher = isMCUPublisher;
PeerConnection.RTCConfiguration configuration = new PeerConnection.RTCConfiguration(iceServerList);
configuration.sdpSemantics = PeerConnection.SdpSemantics.UNIFIED_PLAN;
peerConnection = peerConnectionFactory.createPeerConnection(configuration, new MagicPeerConnectionObserver());
this.signalingMessageReceiver = signalingMessageReceiver;
this.signalingMessageReceiver.addListener(webRtcMessageListener, sessionId, videoStreamType);
this.signalingMessageSender = signalingMessageSender;
if (peerConnection != null) {
if (this.localStream != null) {
List<String> localStreamIds = Collections.singletonList(this.localStream.getId());
for(AudioTrack track : this.localStream.audioTracks) {
peerConnection.addTrack(track, localStreamIds);
}
for(VideoTrack track : this.localStream.videoTracks) {
peerConnection.addTrack(track, localStreamIds);
}
}
if (hasMCU || hasInitiated) {
DataChannel.Init init = new DataChannel.Init();
init.negotiated = false;
dataChannel = peerConnection.createDataChannel("status", init);
dataChannel.registerObserver(new MagicDataChannelObserver());
if (isMCUPublisher) {
peerConnection.createOffer(magicSdpObserver, mediaConstraints);
} else if (hasMCU && "video".equals(this.videoStreamType)) {
// If the connection type is "screen" the client sharing the screen will send an
// offer; offers should be requested only for videos.
// "to" property is not actually needed in the "requestoffer" signaling message, but it is used to
// set the recipient session ID in the assembled call message.
NCSignalingMessage ncSignalingMessage = createBaseSignalingMessage("requestoffer");
signalingMessageSender.send(ncSignalingMessage);
} else if (!hasMCU && hasInitiated) {
peerConnection.createOffer(magicSdpObserver, mediaConstraints);
}
}
}
}
/**
* Adds a listener for data channel messages.
*
* A listener is expected to be added only once. If the same listener is added again it will be notified just once.
*
* @param listener the DataChannelMessageListener
*/
public void addListener(DataChannelMessageListener listener) {
dataChannelMessageNotifier.addListener(listener);
}
public void removeListener(DataChannelMessageListener listener) {
dataChannelMessageNotifier.removeListener(listener);
}
/**
* Adds an observer for peer connection changes.
*
* An observer is expected to be added only once. If the same observer is added again it will be notified just once.
*
* @param observer the PeerConnectionObserver
*/
public void addObserver(PeerConnectionObserver observer) {
peerConnectionNotifier.addObserver(observer);
}
public void removeObserver(PeerConnectionObserver observer) {
peerConnectionNotifier.removeObserver(observer);
}
public String getVideoStreamType() {
return videoStreamType;
}
public void removePeerConnection() {
signalingMessageReceiver.removeListener(webRtcMessageListener);
if (dataChannel != null) {
dataChannel.dispose();
dataChannel = null;
Log.d(TAG, "Disposed DataChannel");
} else {
Log.d(TAG, "DataChannel is null.");
}
if (peerConnection != null) {
peerConnection.close();
peerConnection = null;
Log.d(TAG, "Disposed PeerConnection");
} else {
Log.d(TAG, "PeerConnection is null.");
}
}
private void drainIceCandidates() {
if (peerConnection != null) {
for (IceCandidate iceCandidate : iceCandidates) {
peerConnection.addIceCandidate(iceCandidate);
}
iceCandidates = new ArrayList<>();
}
}
private void addCandidate(IceCandidate iceCandidate) {
if (peerConnection != null && peerConnection.getRemoteDescription() != null) {
peerConnection.addIceCandidate(iceCandidate);
} else {
iceCandidates.add(iceCandidate);
}
}
public void sendChannelData(DataChannelMessage dataChannelMessage) {
ByteBuffer buffer;
if (dataChannel != null) {
try {
buffer = ByteBuffer.wrap(LoganSquare.serialize(dataChannelMessage).getBytes());
dataChannel.send(new DataChannel.Buffer(buffer, false));
} catch (IOException e) {
Log.d(TAG, "Failed to send channel data, attempting regular " + dataChannelMessage);
}
}
}
public PeerConnection getPeerConnection() {
return peerConnection;
}
public String getSessionId() {
return sessionId;
}
private void sendInitialMediaStatus() {
if (localStream != null) {
if (localStream.videoTracks.size() == 1 && localStream.videoTracks.get(0).enabled()) {
sendChannelData(new DataChannelMessage("videoOn"));
} else {
sendChannelData(new DataChannelMessage("videoOff"));
}
if (localStream.audioTracks.size() == 1 && localStream.audioTracks.get(0).enabled()) {
sendChannelData(new DataChannelMessage("audioOn"));
} else {
sendChannelData(new DataChannelMessage("audioOff"));
}
}
}
public boolean isMCUPublisher() {
return isMCUPublisher;
}
private boolean shouldNotReceiveVideo() {
for (MediaConstraints.KeyValuePair keyValuePair : mediaConstraints.mandatory) {
if ("OfferToReceiveVideo".equals(keyValuePair.getKey())) {
return !Boolean.parseBoolean(keyValuePair.getValue());
}
}
return false;
}
private NCSignalingMessage createBaseSignalingMessage(String type) {
NCSignalingMessage ncSignalingMessage = new NCSignalingMessage();
ncSignalingMessage.setTo(sessionId);
ncSignalingMessage.setRoomType(videoStreamType);
ncSignalingMessage.setType(type);
return ncSignalingMessage;
}
private class WebRtcMessageListener implements SignalingMessageReceiver.WebRtcMessageListener {
public void onOffer(String sdp, String nick) {
onOfferOrAnswer("offer", sdp);
}
public void onAnswer(String sdp, String nick) {
onOfferOrAnswer("answer", sdp);
}
private void onOfferOrAnswer(String type, String sdp) {
SessionDescription sessionDescriptionWithPreferredCodec;
boolean isAudio = false;
String sessionDescriptionStringWithPreferredCodec = MagicWebRTCUtils.preferCodec(sdp, "H264", isAudio);
sessionDescriptionWithPreferredCodec = new SessionDescription(
SessionDescription.Type.fromCanonicalForm(type),
sessionDescriptionStringWithPreferredCodec);
if (getPeerConnection() != null) {
getPeerConnection().setRemoteDescription(magicSdpObserver, sessionDescriptionWithPreferredCodec);
}
}
public void onCandidate(String sdpMid, int sdpMLineIndex, String sdp) {
IceCandidate iceCandidate = new IceCandidate(sdpMid, sdpMLineIndex, sdp);
addCandidate(iceCandidate);
}
public void onEndOfCandidates() {
drainIceCandidates();
}
}
private class MagicDataChannelObserver implements DataChannel.Observer {
@Override
public void onBufferedAmountChange(long l) {
}
@Override
public void onStateChange() {
if (dataChannel != null &&
dataChannel.state() == DataChannel.State.OPEN &&
"status".equals(dataChannel.label())) {
sendInitialMediaStatus();
}
}
@Override
public void onMessage(DataChannel.Buffer buffer) {
if (buffer.binary) {
Log.d(TAG, "Received binary msg over " + TAG + " " + sessionId);
return;
}
ByteBuffer data = buffer.data;
final byte[] bytes = new byte[data.capacity()];
data.get(bytes);
String strData = new String(bytes);
Log.d(TAG, "Got msg: " + strData + " over " + TAG + " " + sessionId);
DataChannelMessage dataChannelMessage;
try {
dataChannelMessage = LoganSquare.parse(strData, DataChannelMessage.class);
} catch (IOException e) {
Log.d(TAG, "Failed to parse data channel message");
return;
}
if ("nickChanged".equals(dataChannelMessage.getType())) {
String nick = null;
if (dataChannelMessage.getPayload() instanceof String) {
nick = (String) dataChannelMessage.getPayload();
} else if (dataChannelMessage.getPayload() instanceof Map) {
Map<String, String> payloadMap = (Map<String, String>) dataChannelMessage.getPayload();
nick = payloadMap.get("name");
}
if (nick != null) {
dataChannelMessageNotifier.notifyNickChanged(nick);
}
return;
}
if ("audioOn".equals(dataChannelMessage.getType())) {
dataChannelMessageNotifier.notifyAudioOn();
return;
}
if ("audioOff".equals(dataChannelMessage.getType())) {
dataChannelMessageNotifier.notifyAudioOff();
return;
}
if ("videoOn".equals(dataChannelMessage.getType())) {
dataChannelMessageNotifier.notifyVideoOn();
return;
}
if ("videoOff".equals(dataChannelMessage.getType())) {
dataChannelMessageNotifier.notifyVideoOff();
return;
}
}
}
private class MagicPeerConnectionObserver implements PeerConnection.Observer {
@Override
public void onSignalingChange(PeerConnection.SignalingState signalingState) {
}
@Override
public void onIceConnectionChange(PeerConnection.IceConnectionState iceConnectionState) {
Log.d("iceConnectionChangeTo: ", iceConnectionState.name() + " over " + peerConnection.hashCode() + " " + sessionId);
if (iceConnectionState == PeerConnection.IceConnectionState.CONNECTED) {
if (hasInitiated) {
sendInitialMediaStatus();
}
}
peerConnectionNotifier.notifyIceConnectionStateChanged(iceConnectionState);
}
@Override
public void onIceConnectionReceivingChange(boolean b) {
}
@Override
public void onIceGatheringChange(PeerConnection.IceGatheringState iceGatheringState) {
}
@Override
public void onIceCandidate(IceCandidate iceCandidate) {
NCSignalingMessage ncSignalingMessage = createBaseSignalingMessage("candidate");
NCMessagePayload ncMessagePayload = new NCMessagePayload();
ncMessagePayload.setType("candidate");
NCIceCandidate ncIceCandidate = new NCIceCandidate();
ncIceCandidate.setSdpMid(iceCandidate.sdpMid);
ncIceCandidate.setSdpMLineIndex(iceCandidate.sdpMLineIndex);
ncIceCandidate.setCandidate(iceCandidate.sdp);
ncMessagePayload.setIceCandidate(ncIceCandidate);
ncSignalingMessage.setPayload(ncMessagePayload);
signalingMessageSender.send(ncSignalingMessage);
}
@Override
public void onIceCandidatesRemoved(IceCandidate[] iceCandidates) {
}
@Override
public void onAddStream(MediaStream mediaStream) {
peerConnectionNotifier.notifyStreamAdded(mediaStream);
}
@Override
public void onRemoveStream(MediaStream mediaStream) {
peerConnectionNotifier.notifyStreamRemoved(mediaStream);
}
@Override
public void onDataChannel(DataChannel dataChannel) {
if ("status".equals(dataChannel.label()) || "JanusDataChannel".equals(dataChannel.label())) {
PeerConnectionWrapper.this.dataChannel = dataChannel;
PeerConnectionWrapper.this.dataChannel.registerObserver(new MagicDataChannelObserver());
}
}
@Override
public void onRenegotiationNeeded() {
}
@Override
public void onAddTrack(RtpReceiver rtpReceiver, MediaStream[] mediaStreams) {
}
}
private class MagicSdpObserver implements SdpObserver {
private static final String TAG = "MagicSdpObserver";
@Override
public void onCreateFailure(String s) {
Log.d(TAG, "SDPObserver createFailure: " + s + " over " + peerConnection.hashCode() + " " + sessionId);
}
@Override
public void onSetFailure(String s) {
Log.d(TAG,"SDPObserver setFailure: " + s + " over " + peerConnection.hashCode() + " " + sessionId);
}
@Override
public void onCreateSuccess(SessionDescription sessionDescription) {
String type = sessionDescription.type.canonicalForm();
NCSignalingMessage ncSignalingMessage = createBaseSignalingMessage(type);
NCMessagePayload ncMessagePayload = new NCMessagePayload();
ncMessagePayload.setType(type);
SessionDescription sessionDescriptionWithPreferredCodec;
String sessionDescriptionStringWithPreferredCodec = MagicWebRTCUtils.preferCodec
(sessionDescription.description,
"H264", false);
sessionDescriptionWithPreferredCodec = new SessionDescription(
sessionDescription.type,
sessionDescriptionStringWithPreferredCodec);
ncMessagePayload.setSdp(sessionDescriptionWithPreferredCodec.description);
ncSignalingMessage.setPayload(ncMessagePayload);
signalingMessageSender.send(ncSignalingMessage);
if (peerConnection != null) {
peerConnection.setLocalDescription(magicSdpObserver, sessionDescriptionWithPreferredCodec);
}
}
@Override
public void onSetSuccess() {
if (peerConnection != null) {
if (peerConnection.getLocalDescription() == null) {
if (shouldNotReceiveVideo()) {
for (RtpTransceiver t : peerConnection.getTransceivers()) {
if (t.getMediaType() == MediaStreamTrack.MediaType.MEDIA_TYPE_VIDEO) {
t.stop();
}
}
Log.d(TAG, "Stop all Transceivers for MEDIA_TYPE_VIDEO.");
}
/*
Passed 'MediaConstraints' will be ignored by WebRTC when using UNIFIED PLAN.
See for details: https://docs.google.com/document/d/1PPHWV6108znP1tk_rkCnyagH9FK205hHeE9k5mhUzOg/edit#heading=h.9dcmkavg608r
*/
peerConnection.createAnswer(magicSdpObserver, new MediaConstraints());
}
if (peerConnection.getRemoteDescription() != null) {
drainIceCandidates();
}
}
}
}
}